Your search keyword '"Physical agents"' showing total 277 results

1. Ingurgitación mamaria desde la fisioterapia a través de agentes físicos y técnicas manuales: revisión sistemática con meta-análisis.

Author

Sánchez-Gadvay, Andrea, Benavides, Lina María, Hoyos-Calderón, Yennyt Tatiana, and Rosales-Ricardo, Yury

Subjects

PHYSICAL therapy, LACTATION disorders, TREATMENT effectiveness, META-analysis, SYSTEMATIC reviews, MEDLINE, MEDICAL records, ACQUISITION of data, PAIN management, ONLINE information services, QUALITY assurance

Abstract

Copyright of Revista Ciencias de la Salud is the property of Colegio Mayor de Nuestra Senora del Rosario and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. NEW METHODS OF INACTIVATION OF SOME PATHOGENIC AGENTS IN DENTAL CLINICS. REVIEW

Author

Ionuț-Daniel Gafincu-Grigoriu, Liliana Pasarin, Ana-Emanuela Botez, Oana Butnaru, Doinita Temelie-Olinici, Ionut Catalin Botezatu, Ruxandra Stan, and Carmen-Elena Cotrutz

Subjects

pathogenic agents, dental clinics, decontamination methods, antiseptic biocidal, physical agents, Dentistry, RK1-715

Abstract

The interior space of a cabinet of this type is composed of the air in the rooms, the contact surfaces (walls, ceiling, lighting fixtures, floor, doors, windows, furniture, equipment), instruments and dental materials being exposed to various pathogens that must be kept under strict control through various accredited decontamination methods. Most dental treatments are aerosol-generating procedures that produce a mixture of sprays, droplets, and aerosols containing saliva, blood, water, and viable microorganisms (including bacteria, fungi, and viruses). Chemical agents – antiseptic biocidal products and chemical disinfectants used in sanitary facilities must have a bactericidal, fungicidal, mycobactericidal, virucidal and sporicidal effect, depending on the purpose of use. The interaction between the chemical compounds of disinfectants and microbial cells can cause a serious reaction to public health and sanitary security. The risk factor intensifies the probability of selection and dissemination of multidrug resistance among pathogenic bacteria. The use of a UVC air decontamination device that is safe for human exposure could provide the desired antimicrobial benefits without accompanying human health concerns raised by conventional UVGI germicidal lamps.

Published

2023

3. Prevalence and impact of falls as domestic injury among rural housewives of Raipur District, Chhattisgarh, India

Author

Jaita Mondal and Maharaj Singh

Subjects

Domestic injuries, Fall, Housewives, Mechanical agents, Physical agents, Public aspects of medicine, RA1-1270

Abstract

Introduction: The most common domestic injury among housewives is falling from stairs and ramps or on the floor. The present study aimed to find and associate the prevalence of falls with various agents, risk factors causing falls and the impact of falls among rural housewives. Methods: A cross-sectional survey was carried out among 500 randomly selected housewives from rural areas of Raipur district, Chhattisgarh in the month of March to June 2019. Demographic data and information regarding the occurrence of falls, various agents & factors associated with falls were collected by questionnaires, lux meter, anemometer and sound level meter through interviews, and observation techniques. The Nordic questionnaire was used to assess the impact of falls. Collected data were analyzed by using SPSS 20 statistical package. Results: 295 out of 500 housewives had domestic injuries which included 12.8 % of fall injuries. Fall had a significant association with various physical agents like illumination in the living room (χ2=11.004, df=1), relative humidity of the kitchen (χ2=18.03, df=2) and presence of adequate natural light (χ2=11.232, df=1). Even various personal risk factors were significant causes of falls like wearing slippers on a wet floor (χ2=11.845, df=1), presence of open electric wires (χ2=4.84, df=1), self-cleaning of toilet & floor (χ2=11.371, df=1) and self-cooking (χ2=10.959, df=1). Heavy works like carrying water in a big container (χ2=6.025, df=1), working under direct sunlight (χ2=4.195, df=1), prolonged standing while cooking or on an agricultural field (χ2=32.073, df=1) and using of hand pump per day to draw water (χ2=42.329, df=1) were highly significant causes of domestic fall. Conclusion: Findings of the study concluded that fall was very much prevalent among housewives, and being at home still housewives are exposed to various agents and personal risk factors causing fall.

Published

2023

4. NEW METHODS OF INACTIVATION OF SOME PATHOGENIC AGENTS IN DENTAL CLINICS. REVIEW.

Author

Gafincu-Grigoriu, Ionuț-Daniel, Pasarin, Liliana, Botez, Ana-Emanuela, Butnaru, Oana, Temelie-Olinici, Doinita, Botezatu, Ionut Catalin, Stan, Ruxandra, and Cotrutz, Carmen-Elena

Subjects

SCIENTIFIC literature, DENTAL clinics, APPLIED sciences, HEALTH facilities, MEDICAL personnel, FUMIGATION, BROMOMETHANE

Published

2023

5. The role of physical agents' exposure in male infertility: A critical review.

Author

Giulioni, Carlo, Maurizi, Valentina, and Galosi, Andrea Benedetto

Subjects

*MALE infertility, *SEMEN analysis, *PSYCHOLOGICAL stress, *WORKING class, *HEAT radiation & absorption

Abstract

Background: A decrease in semen quality is an increasingly widespread pathological condition worldwide. Jobs and lifestyles have changed a lot with the advancement of technology in the last few decades, and a new series of risk factors for male infertility have spread. Objective: This review aims to summarize the current literature on this relationship, evaluating alterations in semen parameters and hormonal profile. Methods: A deep research was performed through MEDLINE via PubMed, Scopus, and Web of Science on articles regarding the relationship between physical agents and male fertility over the last twenty years. Some physical agents already associated with male infertility, such as heat and radiation, while emerging ones, such as physical exertion, psychological stress and sedentary activities, were newly considered. Results: Most studies described sperm quality after exposure. Overall sperm impairment was shown after radiation and alteration of specific parameters, such as sperm concentration, were observed after psychological stress and sedentary work. In addition, an association was also reported between physical exertion and hormonal profile, especially pituitary hormones and testosterone. Conclusions: Although the associations between physical agents and male infertility are suggestive, the level of evidence of the studies is not adequate to define their influence, except for physical exertion. Therefore, new prospective studies are necessary for the validation of the correlation and the possible safeguarding of the exposed working classes. [ABSTRACT FROM AUTHOR]

Published

2023

6. Adjunctive Physiotherapy – A Case Report on the Management and Effective Treatment of Diabetic Neuropathic Foot Ulcer Using Adjunctive Physiotherapy

Author

Coplin M.

Subjects

physiotherapy iontophoresis, pulsed-shortwave diathermy, galvanic current, low-volt alternating current, hydrotherapy, physical agents, diabetic ulcer, chronic wound care, Medicine (General), R5-920, Sports medicine, RC1200-1245

Abstract

Physiotherapy must be considered and reprioritized as an adjunctive medical service for long term health and rehabilitation. Comprehensive physiotherapy has the potential to be administered in out-patient rehabilitation facilities, hospitals, and Thermal Health Centers. A review of select adjunctive physiotherapy methods will be presented along with a case report of the successful treatment, with rationally selected physiotherapeutic agents, of a Diabetic Neuropathic Foot Ulcer scheduled for surgical amputation. By highlighting this case, the author is attempting to bring attention to familiar and time-tested therapies that have fallen out of use in a primary intervention context. This case report aims to exemplify that the role for rational physiotherapeutic methods stretches beyond current mainstream applications. Historical Context. Will supply the historical and foundational work in the field of physiotherapy that contextualizes the rational basis for the applications described in the case. Therapies. Lists the physiotherapy methods highlighted in this case, reviews the mechanism of action, discusses the therapeutic application, and provides modern citation for the rationalization of the therapy. Case Report. Reviews a detailed narrative of the case in review. Covers intake, case history, progression of case, as well as clinical applications for physiotherapy as they arise in the course of case management. Conclusion. Reviews the emphasis for reconsidering the role of Physiotherapy in the primary management of acute and chronic illness.

Published

2021

7. Different Cryotherapy Modalities Demonstrate Similar Effects on Muscle Performance, Soreness, and Damage in Healthy Individuals and Athletes: A Systematic Review with Metanalysis.

Author

Azevedo, Klaus Porto, Bastos, Júlia Aguillar Ivo, de Sousa Neto, Ivo Vieira, Pastre, Carlos Marcelo, and Durigan, Joao Luiz Quagliotti

Subjects

*ATHLETES, *COLD therapy, *HEART beat, *MYALGIA, *CREATINE kinase

Abstract

Background: There are extensive studies focusing on non-invasive modalities to recover physiological systems after exercise-induced muscle damage (EIMD). Whole-body cryotherapy (WBC) and Partial-body cryotherapy (PBC) have been recommended for recovery after EIMD. However, to date, no systematic reviews have been performed to compare their effects on muscle performance and muscle recovery markers. Methods: This systematic review with metanalysis compared the effects of WBC and PBC on muscle performance, muscle soreness (DOMS), and markers of muscular damage following EIMD. We used Pubmed, Embase, PEDro, and Cochrane Central Register of Controlled Trials as data sources. Two independent reviewers verified the methodological quality of the studies. The studies were selected if they used WBC and PBC modalities as treatment and included muscle performance and muscle soreness (DOMS) as the primary outcomes. Secondary outcomes were creatine kinase and heart rate variability. Results: Six studies with a pooled sample of 120 patients were included. The methodological quality of the studies was moderate, with an average of 4.3 on a 0–10 scale (PEDro). Results: Both cryotherapy modalities induce similar effects without difference between them. Conclusion: WBC and PBC modalities have similar global responses on muscle performance, soreness, and markers of muscle damage. [ABSTRACT FROM AUTHOR]

Published

2022

8. Impact of Chemical Endocrine Disruptors and Hormone Modulators on the Endocrine System.

Author

Guarnotta, Valentina, Amodei, Roberta, Frasca, Francesco, Aversa, Antonio, and Giordano, Carla

Subjects

*ENDOCRINE disruptors, *ENDOCRINE system, *PARATHYROID glands, *POISONS, *PANCREATIC beta cells, *THYROID gland

Abstract

There is growing concern regarding the health and safety issues of endocrine-disrupting chemicals (EDCs). Long-term exposure to EDCs has alarming adverse health effects through both hormone-direct and hormone-indirect pathways. Non-chemical agents, including physical agents such as artificial light, radiation, temperature, and stress exposure, are currently poorly investigated, even though they can seriously affect the endocrine system, by modulation of hormonal action. Several mechanisms have been suggested to explain the interference of EDCs with hormonal activity. However, difficulty in quantifying the exposure, low standardization of studies, and the presence of confounding factors do not allow the establishment of a causal relationship between endocrine disorders and exposure to specific toxic agents. In this review, we focus on recent findings on the effects of EDCs and hormone system modulators on the endocrine system, including the thyroid, parathyroid glands, adrenal steroidogenesis, beta-cell function, and male and female reproductive function. [ABSTRACT FROM AUTHOR]

Published

2022

9. Toys can’t play: physical agents in Spekkens’ theory

Author

Ladina Hausmann, Nuriya Nurgalieva, and Lídia del Rio

Subjects

epistemic theories, logical paradoxes, physical agents, Spekkens’ toy theory, Science, Physics, QC1-999

Abstract

Information is physical (Landauer 1961 IBM J. Res. Dev. 5 183–91), and for a physical theory to be universal, it should model observers as physical systems, with concrete memories where they store the information acquired through experiments and reasoning. Here we address these issues in Spekkens’ toy theory (Spekkens 2005 Phys. Rev. A 71 052108), a non-contextual epistemically restricted model that partially mimics the behaviour of quantum mechanics. We propose a way to model physical implementations of agents, memories, measurements, conditional actions and information processing. We find that the actions of toy agents are severely limited: although there are non-orthogonal states in the theory, there is no way for physical agents to consciously prepare them. Their memories are also constrained: agents cannot forget in which of two arbitrary states a system is. Finally, we formalize the process of making inferences about other agents’ experiments and model multi-agent experiments like Wigner’s friend. Unlike quantum theory (Nurgalieva and del Rio Lidia 2019 Electron. Proc. Theor. Comput. Sci. 287 267–97; Fraser et al 2020 Fitch’s knowability axioms are incompatible with quantum theory arXiv: 2009.00321 ; Frauchiger and Renner 2018 Nat. Commun. 9 3711; Nurgalieva and Renner 2021 Contemp. Phys. 61 1–24; Brukner 2018 Entropy 20 350) or box world (Vilasini et al 2019 New J. Phys. 21 113028), in toy theory there are no inconsistencies when physical agents reason about each other’s knowledge.

Published

2023

10. Physical Agent Modalities in Early Osteoarthritis: A Scoping Review.

Author

Mauro, Giulia Letizia, Scaturro, Dalila, Gimigliano, Francesca, Paoletta, Marco, Liguori, Sara, Toro, Giuseppe, Iolascon, Giovanni, and Moretti, Antimo

Subjects

OSTEOARTHRITIS, EXTRACORPOREAL shock wave therapy, TRANSCUTANEOUS electrical nerve stimulation, VIBRATION therapy, ELECTROTHERAPEUTICS

Abstract

Early osteoarthritis (EOA) still represents a challenge for clinicians. Although there is no consensus on its definition and diagnosis, a prompt therapeutic intervention in the early stages can have a significant impact on function and quality of life. Exercise remains a core treatment for EOA; however, several physical modalities are commonly used in this population. The purpose of this paper is to investigate the role of physical agents in the treatment of EOA. A technical expert panel (TEP) of 8 medical specialists with expertise in physical agent modalities and musculoskeletal conditions performed the review following the PRISMA-ScR (Preferred Reporting Items for Systematic Reviews and Meta-Analyses Extension for Scoping Reviews) model. The TEP searched for evidence of the following physical modalities in the management of EOA: “Electric Stimulation Therapy”, “Pulsed Electromagnetic field”, “Low-Level Light Therapy”, “Laser Therapy”, “Magnetic Field Therapy”, “Extracorporeal Shockwave Therapy”, “Hyperthermia, Induced”, “Cryotherapy”, “Vibration therapy”, “Whole Body Vibration”, “Physical Therapy Modalities”. We found preclinical and clinical data on transcutaneous electrical nerve stimulation (TENS), extracorporeal shockwave therapy (ESWT), low-intensity pulsed ultrasound (LIPUS), pulsed electromagnetic fields stimulation (PEMF), and whole-body vibration (WBV) for the treatment of knee EOA. We found two clinical studies about TENS and PEMF and six preclinical studies—three about ESWT, one about WBV, one about PEMF, and one about LIPUS. The preclinical studies demonstrated several biological effects on EOA of physical modalities, suggesting potential disease-modifying effects. However, this role should be better investigated in further clinical studies, considering the limited data on the use of these interventions for EOA patients. [ABSTRACT FROM AUTHOR]

Published

2021

11. Domestic Injuries and Physical Agents: A Disregarded Health Issue among Housewives in Raipur, India

Author

Jaita Mondal Ghosh and Tapati Bhattacharjee

Subjects

Domestic injuries, Housewives, Physical agents, Relative humidity, Vision problem, Public aspects of medicine, RA1-1270

Abstract

Introduction: Housewives perform various household works both inside and outside the home, which may cause domestic injuries and ill health. Domestic injuries are usually sustained due to exposure to various physical agents. The objectives of the current study were to find out the various physical agents, the prevalence of various types of domestic injuries & to find out the association between domestic injuries and selected physical agents. Methods: In this study 500 housewives aged more than 18 years from villages of Raipur, Chhattisgarh were selected by multistage stratified random sampling. Demographic information, the occurrence of domestic injuries, and the factors associated with injuries were collected by questionnaires, interviews, and observation technique. Collected data were analyzed by using SPSS 16 statistical package. Results: Results showed that the mean age of housewives was 39.27 (±12.07) years and the majority of them were between 22-35 years of age group. Data revealed that 59% of housewives had suffered from domestic injuries. Out of them, the majority were suffering from vision problems (45.1%) and headache (36%), 21% suffered from heat, 15% got cut and 14.8% had fire burn from home environment. Around 14% got eye irritation and 12.8% of housewives had experienced falls on the floor. A significant association was found between injuries and physical agents. Conclusion: The study concluded that housewives are exposed to various physical agents in their own homes, which contributes to the prevalence of various types of domestic injuries among them. Housewives themselves and family members have to be aware of those physical agents present in their home which silently affecting their health.

Published

2021

12. Physical Agent Modalities in Early Osteoarthritis: A Scoping Review

Author

Giulia Letizia Mauro, Dalila Scaturro, Francesca Gimigliano, Marco Paoletta, Sara Liguori, Giuseppe Toro, Giovanni Iolascon, and Antimo Moretti

Subjects

osteoarthritis, early osteoarthritis, rehabilitation, physical therapy modalities, physical agents, electric stimulation therapy, Medicine (General), R5-920

Abstract

Early osteoarthritis (EOA) still represents a challenge for clinicians. Although there is no consensus on its definition and diagnosis, a prompt therapeutic intervention in the early stages can have a significant impact on function and quality of life. Exercise remains a core treatment for EOA; however, several physical modalities are commonly used in this population. The purpose of this paper is to investigate the role of physical agents in the treatment of EOA. A technical expert panel (TEP) of 8 medical specialists with expertise in physical agent modalities and musculoskeletal conditions performed the review following the PRISMA-ScR (Preferred Reporting Items for Systematic Reviews and Meta-Analyses Extension for Scoping Reviews) model. The TEP searched for evidence of the following physical modalities in the management of EOA: “Electric Stimulation Therapy”, “Pulsed Electromagnetic field”, “Low-Level Light Therapy”, “Laser Therapy”, “Magnetic Field Therapy”, “Extracorporeal Shockwave Therapy”, “Hyperthermia, Induced”, “Cryotherapy”, “Vibration therapy”, “Whole Body Vibration”, “Physical Therapy Modalities”. We found preclinical and clinical data on transcutaneous electrical nerve stimulation (TENS), extracorporeal shockwave therapy (ESWT), low-intensity pulsed ultrasound (LIPUS), pulsed electromagnetic fields stimulation (PEMF), and whole-body vibration (WBV) for the treatment of knee EOA. We found two clinical studies about TENS and PEMF and six preclinical studies—three about ESWT, one about WBV, one about PEMF, and one about LIPUS. The preclinical studies demonstrated several biological effects on EOA of physical modalities, suggesting potential disease-modifying effects. However, this role should be better investigated in further clinical studies, considering the limited data on the use of these interventions for EOA patients.

Published

2021

13. PHYSIOTHERAPY MANAGEMENT IN COMMON TENDON INJURIES: REVIEW OF REVIEWS

Author

Mahamed Ateef

Subjects

Physical Therapy, Evidence-Based Medicine, Exercise, Physical agents, Systematic review, Medicine (General), R5-920

Abstract

Background: Numerous systematic reviews have been published on tendinopathies that deals with specific therapies on a specific location. Clinical therapists find it difficult to synthesize these results into their practice as evidence is conflicting between the sites of tendinopathy. The objective of this systematic review is to see the effectiveness of physiotherapy interventions (both active- exercise and passive- physical agents) in the management of tendinopathies. Methods: Articles were selected from Web of Science (WoS) by entering keywords in mid-December 2017. Articles published in the English language, between 2000 and 2017 were selected. The author selected 14 reviews from 31 possible reviews for this article and all, but one was indexed in PubMed too. Seven, 1, 3 and 3 were the number of articles that were carried treatment, physiotherapy, exercise and physical agents in their titles. Shoulder, hip or knee, ankle locations were dealt in 6, 4 and four articles respectively. Results: Current evidence-based literature shows that exercise especially eccentric one is the definite physiotherapy treatment option for treating lower limb and some upper limb tendinopathies. However, reviews show that other forms of exercises particularly stabilization as a promising option in upper limb conditions. Physical agents (Ultra Sound [US], Transcutaneous electrical nerve stimulation [TENS] are showing conflicting results hence not recommended at this point. The LASER can be used in Shoulder tendinopathies. Conclusion: The traditional concept of eccentric training in tendinopathies is challenged by recent reviews which show stabilization and other types of exercises also improving pain and function in tendinopathies. Well-designed large RCT trials are required to see the effectiveness of physical agents, different types of exercise training on tendinopathies.

Published

2018

14. Evaluation and Analysis of Noise and Vibration Exposure Level on Operator of QT40B, QTJ4-40, Lister and LM2-45 Block Moulding Machine

Author

J. D Amine, Sampson Chisa Owhor, and Milkail Alhaji Abdulkareem

Subjects

Vibration, Noise, Operator (computer programming), Physical agents, Computer science, Block (telecommunications), Vibration exposure, Laser Doppler vibrometer, Automotive engineering

Abstract

High levels of occupational noise and vibration remain a problem in all regions of the world. In Nigeria, 12-15% of the workforce are exposed to this hazards by WHO, 2001. This research intends to achieve the following objectives; To assess the noise emitted during the moulding of various types of blocks, to determine the level of vibration induced to workers of block moulders during activities and to determine the effect of noise and vibration on workers. The following materials and equipment were used; QT40B manual block moulding machine, LM2-45 Mobile Block moulding Machine, Lister powered block moulding machine, QTJ4-40 block moulding machine using 9 and 6 inches Plates, Vibrometer and Noise monitor. The workers were exposed to noise levels above 75dB and vibration levels above 5ms-2 set as upper limit values in the Directive 44/EC from 2002 – on the Minimum Health and safety Requirements Regarding to Exposure of Workers to the Risk Arising from Physical Agents Vibration.

Published

2021

15. Proposal of Combined Noise and Hand-Arm Vibration Index for Occupational Exposure: Application to a Study Case in the Olive Sector

Author

M.D. Martinez-Aires, Diego Pablo Ruiz Padillo, Raquel Nieto-Álvarez, María Luisa De la Hoz, and Antonio Aguilar

Subjects

Sector del olivo, Análisis de puesto de trabajo, 5311.07 Investigación Operativa, Health, Toxicology and Mutagenesis, Seguridad y Salud en el Trabajo (SST), 2201.05 Ruido, 5312.01 Agricultura, Silvicultura, Pesca, Vibration, Physical agents, 3310.05 Ingeniería de Procesos, 2201.11 Vibraciones, Olea, Occupational Exposure, Prevención de riesgos laborales, 3204.02 Enfermedades Profesionales, Olive sector, Humans, Ruido ambiental, Workers, Trastornos musculoesqueléticos, Vibraciones, Public Health, Environmental and Occupational Health, physical agents, noise, vibration, HAV, workers, olive sector, 5311.04 Organización de Recursos Humanos, Hearing Loss, Noise-Induced, Noise, Occupational, Noise

Abstract

In many production and industrial sectors, workers are exposed to noise and hand-arm vibrations (HAV). European directives have established the maximum limit values or exposure action values for noise and vibration independently. However, in many cases, workers who endure hand-arm vibration also receive high noise levels. This research suggests a procedure to aid the establishment of precautionary measures for workers with simultaneous exposure to both physical agents. This procedure defines a combined index based on the energy doses for both noise and HAV. From this combined index, the suggested methodology allows a recommended exposure time for workers with simultaneous noise and HAV exposure to be calculated. This methodology can be adapted to tackle the relative importance assigned to both agents according to the safety manager and new knowledge on combined health effects. To test this method, a measurement campaign under real working conditions was conducted with workers from the olive fruit-harvesting sector, where a variety of hand-held machinery is used. The results of the study case show that the suggested procedure can obtain reliable exposure time recommendations for simultaneous noise and HAV exposures and is therefore a useful tool for establishing prevention measures., State Research Agency (SRA) of Spain, European Commission PID2019-108761RB-I00

Published

2022

16. Toys can't play: physical agents in Spekkens' theory

Author

Ladina Hausmann, Nuriya Nurgalieva, and Lídia del Rio

Subjects

Computer Science::Multiagent Systems, Quantum Physics, Epistemic theories, Logical paradoxes, Physical agents, Spekkens’ toy theory, FOS: Physical sciences, General Physics and Astronomy, Quantum Physics (quant-ph)

Abstract

Information is physical (Landauer 1961 IBM J. Res. Dev. 5 183-91), and for a physical theory to be universal, it should model observers as physical systems, with concrete memories where they store the information acquired through experiments and reasoning. Here we address these issues in Spekkens’ toy theory (Spekkens 2005 Phys. Rev. A 71 052108), a non-contextual epistemically restricted model that partially mimics the behaviour of quantum mechanics. We propose a way to model physical implementations of agents, memories, measurements, conditional actions and information processing. We find that the actions of toy agents are severely limited: although there are non-orthogonal states in the theory, there is no way for physical agents to consciously prepare them. Their memories are also constrained: agents cannot forget in which of two arbitrary states a system is. Finally, we formalize the process of making inferences about other agents’ experiments and model multi-agent experiments like Wigner’s friend. Unlike quantum theory (Nurgalieva and del Rio Lidia 2019 Electron. Proc. Theor. Comput. Sci. 287 267-97; Fraser et al 2020 Fitch’s knowability axioms are incompatible with quantum theory arXiv:2009.00321; Frauchiger and Renner 2018 Nat. Commun. 9 3711; Nurgalieva and Renner 2021 Contemp. Phys. 61 1-24; Brukner 2018 Entropy 20 350) or box world (Vilasini et al 2019 New J. Phys. 21 113028), in toy theory there are no inconsistencies when physical agents reason about each other’s knowledge., New Journal of Physics, 25 (2), ISSN:1367-2630

Published

2022

17. Treatment of childhood phthiriasis palpebrarum with systemic ivermectin

Author

Ahmad Nofal, Mohamed M. Fawzy, Fatma Eldeeb, and Ibrahim Fouda

Subjects

medicine.medical_specialty, Case Report, Physical examination, Dermatology, crab louse, ivermectin, Ivermectin, phthiriasis palpebrarum, parasitic diseases, Rare case, medicine, Physical agents, biology, medicine.diagnostic_test, business.industry, Phthiriasis, biology.organism_classification, medicine.anatomical_structure, RL1-803, Itching, Eyelid, medicine.symptom, business, Crab louse, medicine.drug

Abstract

Phthiriasis palpebrarum is an ectoparasitosis of the eyelashes due to infestation with Phthirus pubis, also known as crab louse. It may affect children or adults and present with different clinical symptoms such as eyelid itching, pain, or gritty sensation. Adult lice and nits can be detected by a careful clinical examination and confirmed by dermoscopy. The treatment of phthiriasis palpebrarum may be in the form of topical application of ovidicidal formulations or physical agents, which may be combined with systemic ivermectin.1 Herein, we present a rare case of unilateral phthiriasis palpebrarum affecting an 8-year-old child with an excellent response to oral ivermectin.

Published

2021

18. Information: a missing component in understanding and mitigating social epidemics

Author

Roger D. Magarey and Christina M. Trexler

Subjects

0303 health sciences, Physical agents, business.industry, General Arts and Humanities, Internet privacy, General Social Sciences, Information technology, Social environment, General Business, Management and Accounting, lcsh:History of scholarship and learning. The humanities, lcsh:Social Sciences, lcsh:H, 03 medical and health sciences, 0302 clinical medicine, Geography, Information agents, Component (UML), lcsh:AZ20-999, The Internet, 030212 general & internal medicine, business, General Economics, Econometrics and Finance, General Psychology, 030304 developmental biology

Abstract

Social epidemics or behaviorally based non-communicable diseases are becoming an increasingly important problem in developed countries including the United States. It is the aim of our paper to propose a previously understudied aspect of the spread of social epidemics, the role of information in both causing and mitigating social epidemics. In this paper, we ask, can information be harmful, contagious, and a causal factor in social epidemics? In the spread of biological epidemics, the causal agents are biological pathogens such as bacteria or viruses. We propose that in the spread of social epidemics, one of the causal agents is harmful information, which is increasing exponentially in the age of the internet. We ground our idea in the concept of the meme and define the concept of an infopathogen as harmful information that can spread or intensify a social epidemic. Second, we ask, what are the best tools to understand the role of information in the spread of social epidemics? The epidemiological triad that includes a host, agents (and vectors), and the environment is extended into a quad by including information agents. The quad includes the role of information technologies as vectors and the impact of the social environment. The “life cycles” of pathogens in biological epidemics and infopathogens in social epidemics are compared, along with mitigations suggested by the epidemiological quad. Challenges to the theory of infopathogens, including the complexities associated with the spread of memes and the role of behavior in the spread of epidemics are discussed. Implications of the theory including the classification of harmfulness, the freedom of speech, and the treatment of infected individuals are also considered. We believe the application of the epidemiological quad provides insights into social epidemics and potential mitigations. Finally, we stress that infopathogens are only part of social epidemic development; susceptible hosts, a favorable environment, and availability of physical agents are all also required.

Published

2020

19. Role of physical agents in vocal rehabilitation: a literature review

Author

Christopher Fuentes Aracena and Revista de Investigación en Logopedia

Subjects

Agentes físicos, NMES, lcsh:Language and Literature, medicine.medical_specialty, medicine.medical_treatment, TENS, Disfonía, Physical agents, Language and Linguistics, 03 medical and health sciences, Speech and Hearing, 0302 clinical medicine, Physical medicine and rehabilitation, lcsh:P1-1091, Laser therapy, laserterapia, Vocal therapy, medicine, Phonation, 030223 otorhinolaryngology, Literatura científica, Terapia vocal, Trastornos del habla, terapia vocal, Vocal rehabilitation, business.industry, Evidence-based medicine, Dysphonia, lcsh:Otorhinolaryngology, Lasertherapy, lcsh:RF1-547, lcsh:Philology. Linguistics, Systematic review, Rehabilitación, nmes, Electrotherapy, Terapia, agentes físicos, tens, disfonía, lcsh:P, business, Laserterapia, 030217 neurology & neurosurgery

Abstract

Los agentes físicos son elementos naturales o artificiales que se aplican para el tratamiento de determinados síntomas o patologías. En la rehabilitación vocal su estudio es un área emergente, donde las revisiones sistemáticas y los meta-análisis son escasos. Esto, muchas veces, dificulta la toma de decisiones y la correcta elección por parte del clínico. El objetivo de este trabajo fue analizar el rol de los agentes físicos en la rehabilitación vocal. Se realizó una revisión de la literatura a través de la búsqueda de artículos en las bases de datos PubMed, EBSCOHost y Scielo. Se establecieron criterios de elegibilidad según tipo, año y características de los estudios. Se evaluaron 603 artículos, de los cuales, luego del análisis de su título, abstract y del cumplimiento de los criterios de elegibilidad, se seleccionaron 16. Los resultados se entregaron en base a la cantidad de participantes, nivel de evidencia, tipo y configuración del agente físico, procedimientos e instrumentos de evaluación y beneficios obtenidos. Los agentes físicos de mayor utilización en la clínica vocal son la electroterapia (TENS y NMES) y la laserterapia. En general, estos actúan como coadyuvantes en la terapia vocal. TENS reduce el dolor, la tensión laríngea y la percepción de voz apretada durante la fonación. La NMES beneficia la activación neuromuscular de las cuerdas vocales y el uso de láser permite la recuperación de los tejidos laríngeos posterior a tareas de sobrecarga., Physical agents are natural or artificial elements that are applied for the treatment of certain symptoms or pathologies. In vocal rehabilitation, the study of physical agents is an emerging area, where systematic reviews and meta-analyzes are scarce. This, many times, hampers the decision making and the correct choice by the clinician. The objective of this study was to analyze the role of physical agents in vocal rehabilitation. A literature review was conducted through the search for papers in the databases PubMed, EBSCOHost and Scielo. Eligibility criteria were established according to type, year and characteristics of the studies. Six hundred and three (603) papers were assessed, of which, following the analysis of their titles, abstracts and compliance with the eligibility criteria, 16 were selected. Results were delivered based on the number of participants, level of evidence, type and setup of the physical agent, evaluation procedures and instruments and benefits obtained. The most frequently used physical agents in the vocal clinic are electrotherapy (TENS and NMES) and laser therapy. In general, they act as adjuvants in vocal therapy. TENS reduces pain, laryngeal tension and tight voice perception during phonation. NMES benefits the neuromuscular activation of vocal cords, and the laser use allows for the recovery of laryngeal tissues after vocal overloading tasks.

Published

2020

20. Effect of Biological, Chemical and Physical Agents on Common Bean Plant under Saline Conditions

Author

M. A. M. Abd El-Hady, Doaa M. Mostafa, and Abeer I. Shabana

Subjects

Physical agents, Chemistry, medicine.medical_treatment, medicine, Food science, Saline

Published

2020

21. Evaluation of genotoxic potential of peptides used in nuclear medicine (PSMA -617 and -11, and ubiquicidine 29-41) using a flow-cytometric, semi-automated analysis of micronuclei frequency in cell cultures

Author

L.R. de Carvalho and Daniel Perez Vieira

Subjects

Health, Toxicology and Mutagenesis, 010501 environmental sciences, Toxicology, medicine.disease_cause, 01 natural sciences, Ionizing radiation, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Flow-cytometry, lcsh:RA1190-1270, medicine, PSMA, UBI, ComputingMethodologies_COMPUTERGRAPHICS, 0105 earth and related environmental sciences, lcsh:Toxicology. Poisons, Physical agents, medicine.diagnostic_test, Chemistry, Regular Article, Biochemistry, Micronucleus, Chemical agents, Micronucleus test, Radiopharmaceuticals, Genotoxicity, 030217 neurology & neurosurgery

Abstract

Graphical abstract, Highlights • PSMA-617 induced genotoxicity in vitro only in a non-feasible concentration. • PSMA-11 or Ubiquicidine 29–41 did not induced genotoxicity. • Corroboration of the pharmacological safety of these peptides using fast technique., Assays that rely on the assessment of frequency of micronuclei are important standard techniques currently used to quantify potential genotoxic damage after exposure to chemical or physical agents, such as ionizing radiation, or in pre-clinical studies, to assessment of the genotoxic potential of drugs or its components. The experiments are usually performed using conventional microscopy, but currently the protocols are being upgraded to automated approaches based on flow cytometry protocols based on the elimination of the plasma membrane by chemical agents, allowing quantification by flow cytometry. In this work, the genotoxic potential of peptides used as components of radiopharmaceuticals (PSMA-617 and 11 and Ubiquicidine) was evaluated exposing CHO-KI cells to a wide range of concentration (0.1X and 100X the maximum allowed concentration to human adults). Incubation with PSMA-11 or UBI29–41 did not induce genotoxicity. After 24 h of incubation, PSMA-617 induced genotoxicity only in non-practical concentration (100-fold). Results corroborate the safety of the pre-drugs and the wide detection range of technique.

Published

2020

22. Effects of magnetic field on mental health staff employed in gas power plant, Shiraz, 2008

Author

S. Gharepoor, F. khajenasirie, M. Dehghany, and Z. Zamanian

Subjects

GHQ, general health, physical agents, power, Medicine

Abstract

Background and aimsIn the industrial world, almost everyone is unavoidably exposed to ambient magnetic field (ELF) generated by various technical and household appliances. According to the studies carried out in a power station in Shiraz, psychological disorders causedby jobs are among the most important problems of the workers.MethodsThis study is performed to determine the presence or absence of psychological disorders. The General Health Questionnaire (GHQ) is used in this study to recognize psychosomatic disorders.ResultsMeasurements indicate that range of magnetic field varies from 0.087) micro Tesla(in the phone homes to 30)micro Tesla( in power stations. The results of this study has shown that a significant number of staff which were exposed to magnetic fields and noise )78.2%) were suspected to have a kind of mental disorders.ConclusionThe results obtained from this study which shows the prevalence of mental disorders among the suspected case is higher than the results of Noorbala and colleagues study in 2006. Therefore, there are necessities to do more research in order to find the relationship between electric and magnetic fields and psychological disorders.

Published

2010

23. Analiza štetnog uticaja vibracija na posadu u transportnim sredstvima vojske Srbije / Analysis of risks from crew exposure to vibrations in military transport

Author

Snežana B. Jovanović and Aleksandar S. Đurić

Subjects

ispitivanje vibracija, izloženost vibracijama, vibracije celog tela, vibracije šaka-ruka, procena rizika, fizički agensi, vibration testing, exposure to vibrations, 'whole-body' vibration, 'hand-arm' system vibration, risk assessment, physical agents, Military Science, Engineering (General). Civil engineering (General), TA1-2040

Abstract

U radu je prikazana metoda za procenu rizika nastalog usled izloženosti čoveka vibracijama. Merenja vibracija koje se prenose na celo telo i na sistem šaka-ruka izvršena su za posadu helikoptera, rečnog broda i terenskog vozila. Izmerene vibracije ocenjene su prema kriterijumima 'štetnosti po zdravlje' i 'kvaliteta komfora'. / This paper presents test methods for assessing risks arising from human exposure to vibrations. The measuring of vibrations transmitted to the 'whole-body' and human 'hand-arm' system is carried out for helicopter, river boat and off-road vehicle crews. The measured vibrations are assessed according to the criteria of the 'health quality' level and the 'comfort quality' level.

Published

2009

24. Oxidative Stress, Ageing and Methods of Seed Invigoration: An Overview and Perspectives

Author

Boby Varghese, Norman W. Pammenter, Sershen, Ademola Emmanuel Adetunji, and Tomi Lois Adetunji

Subjects

reactive oxygen species, Physical agents, business.industry, media_common.quotation_subject, food and beverages, Agriculture, Priming (agriculture), Biology, Crop species, Biotechnology, Seed priming, germination, Ageing, Germination, gene bank, Psychological resilience, business, priming, Agronomy and Crop Science, Productivity, orthodox seeds, media_common

Abstract

The maintenance of seed quality during the long-term conservation of plant genetic resources is crucial for averting the projected food crises that are linked to the changing climate and rising world population. However, ageing-induced loss of seed vigour and viability during storage remains an inevitable process that compromises productivity in several orthodox-seeded crop species. Seed ageing under prolonged storage, which can occur even under optimal conditions, induces several modifications capable of causing loss of intrinsic physiological quality traits, including germination capacity and vigour, and stand establishment. The problems posed by seed ageing have motivated the development of various techniques for mitigating their detrimental effects. These invigoration techniques generally fall within one of two categories: (1) priming or pre-hydrating seeds in a solution for improved post-harvest performance, or (2) post-storage reinvigoration which often involves soaking seeds recovered from storage in a solution. Seed priming methods are generally divided into classical (hydropriming, osmopriming, redox priming, biostimulant priming, etc.) and advanced (nanopriming, magnetopriming and priming using other physical agents) techniques. With the increasing popularity of seed invigoration techniques to achieve the much-desired enhanced productivity and resilience in the face of a changing climate, there is an urgent need to explore these techniques effectively (in addition to other important practices such as plant breeding, fertilizer application, and the control of pests and diseases). This review aims to provide an overview of ageing in orthodox seeds and invigoration techniques that can enhance desirable agronomic and physiological characters.

Published

2021

25. The capabilities of bacteria and archaea to alter natural building stones – A review

Author

Schröer, Laurenz, Boon, Nico, De Kock, Tim, Cnudde, Veerle, Hydrogeology, Environmental hydrogeology, Hydrogeology, and Environmental hydrogeology

Subjects

Physical agents, Bacteria, Ecology, Multiple forms, Microorganism, Biology, biology.organism_classification, Archaea, Microbiology, Building stones, Biomaterials, Chemistry, Lead (geology), Biodeterioration, Experimental work, Prokaryotes, Engineering sciences. Technology, Natural building, Waste Management and Disposal, Bioremediation

Abstract

Microorganisms, including bacteria, archaea, algae and fungi, colonize natural building stones. Bacteria are among the most relevant colonizers, as they impact substrates in multiple forms, primarily attributed to their high diversity. They alter rock properties, induce discoloration, dissolution or precipitation, which can lead to degradation over time or in some cases, protection. Numerous studies suggested a link between rock alteration and bacteria, although there are still inconclusive conclusions. Moreover, the role of archaea remains unresolved. Classical cultivation techniques capture a fraction of bacterial and archaeal diversity. Recently, culture-independent and omics-technologies provide tools to further understand their full diversity and true role. Based on field and experimental work, this comprehensive review provides an overview of biocolonization and potential changes during the 21st Century. To better understand the role of bacteria and archaea, the focus will be on their capabilities to alter natural building stones. It also includes a short overview of methods to understand the processes and dynamics of biocolonization. The conclusions of this work will not only improve our understanding of deterioration in general, but it can also make sustainable biorestoration with bacteria the preferred choice instead of chemical and physical agents.

Published

2021

26. Physical Agent Modalities in Early Osteoarthritis: A Scoping Review

Author

Sara Liguori, Giovanni Iolascon, Giuseppe Toro, Giulia Letizia Mauro, Dalila Scaturro, Antimo Moretti, Marco Paoletta, Francesca Gimigliano, Letizia Mauro, G., Scaturro, D., Gimigliano, F., Paoletta, M., Liguori, S., Toro, G., Iolascon, G., Moretti, A., and Letizia Mauro Giulia , Scaturro Dalila , Gimigliano Francesca , Paoletta Marco , Liguori Sara , Toro Giuseppe, Iolascon Giovanni, Moretti Antimo

Subjects

physical therapy modalitie, medicine.medical_specialty, Medicine (General), physical agents, medicine.medical_treatment, Magnetic Field Therapy, Population, Cryotherapy, Osteoarthritis, pulsed electromagnetic field, vibration therapy, Transcutaneous electrical nerve stimulation, law.invention, rehabilitation, R5-920, law, medicine, Humans, education, electric stimulation therapy, education.field_of_study, Modalities, Rehabilitation, physical therapy modalities, business.industry, General Medicine, Osteoarthritis, Knee, extracorporeal shockwave therapy, medicine.disease, physical agent, osteoarthritis, Systematic review, Extracorporeal shockwave therapy, Physical therapy, Quality of Life, osteoarthriti, Systematic Review, business, early osteoarthriti, early osteoarthritis

Abstract

Early osteoarthritis (EOA) still represents a challenge for clinicians. Although there is no consensus on its definition and diagnosis, a prompt therapeutic intervention in the early stages can have a significant impact on function and quality of life. Exercise remains a core treatment for EOA; however, several physical modalities are commonly used in this population. The purpose of this paper is to investigate the role of physical agents in the treatment of EOA. A technical expert panel (TEP) of 8 medical specialists with expertise in physical agent modalities and musculoskeletal conditions performed the review following the PRISMA-ScR (Preferred Reporting Items for Systematic Reviews and Meta-Analyses Extension for Scoping Reviews) model. The TEP searched for evidence of the following physical modalities in the management of EOA: “Electric Stimulation Therapy”, “Pulsed Electromagnetic field”, “Low-Level Light Therapy”, “Laser Therapy”, “Magnetic Field Therapy”, “Extracorporeal Shockwave Therapy”, “Hyperthermia, Induced”, “Cryotherapy”, “Vibration therapy”, “Whole Body Vibration”, “Physical Therapy Modalities”. We found preclinical and clinical data on transcutaneous electrical nerve stimulation (TENS), extracorporeal shockwave therapy (ESWT), low-intensity pulsed ultrasound (LIPUS), pulsed electromagnetic fields stimulation (PEMF), and whole-body vibration (WBV) for the treatment of knee EOA. We found two clinical studies about TENS and PEMF and six preclinical studies—three about ESWT, one about WBV, one about PEMF, and one about LIPUS. The preclinical studies demonstrated several biological effects on EOA of physical modalities, suggesting potential disease-modifying effects. However, this role should be better investigated in further clinical studies, considering the limited data on the use of these interventions for EOA patients.

Published

2021

27. High voltage pulsed current in collagen realignment, synthesis, and angiogenesis after Achilles tendon partial rupture.

Author

Rampazo, Érika P., Liebano, Richard E., Pinfildi, Carlos Eduardo, Folha, Roberta A. C., and Ferreira, Lydia M.

Subjects

*COLLAGEN, *ACHILLES tendon, *ANIMAL experimentation, *BIOLOGICAL models, *CONFIDENCE intervals, *ELECTRIC stimulation, *MICROSCOPY, *NEOVASCULARIZATION, *PROBABILITY theory, *RATS, *DATA analysis software, *DESCRIPTIVE statistics, *ONE-way analysis of variance, *ACHILLES tendon rupture, *ANATOMY, *PHYSIOLOGY

Abstract

Objective: To verify the efficacy of high voltage pulsed current in collagen realignment and synthesis and in angiogenesis after the partial rupturing of the Achilles tendon in rats. Method: Forty male Wistar rats were randomized into four groups of 10 animals each: sham, cathodic stimulation, anodic stimulation, and alternating stimulation. Their Achilles tendons were submitted to direct trauma by a free-falling metal bar. Then, the treatment was administered for six consecutive days after the injury. In the simulation group, the electrodes were positioned on the animal, but the device remained off for 30 minutes. The other groups used a frequency of 120 pps, sensory threshold, and the corresponding polarity. On the seventh day, the tendons were removed and sent for histological slide preparation for birefringence and Picrosirius Red analysis and for blood vessel quantification. Results: No significant difference was observed among the groups regarding collagen realignment (types I or III collagen) or quantity of blood vessels. Conclusion: High voltage pulsed current for six consecutive days was not effective in collagen realignment, synthesis, or angiogenesis after the partial rupturing of the Achilles tendon in rats. [ABSTRACT FROM AUTHOR]

Published

2016

28. Parenteral Vs Enteral Nutrition as an Improvement in Wound Healing in the Severely Burned Patient in the ICU

Author

Pech-Miz L, Echeverría-Díaz I, Ortiz-Gómez L, Puerto-Amaya A, and Puch-Ku Eloisa

Subjects

Parenteral nutrition, Physical agents, Erythema, business.industry, Anesthesia, Hypermetabolism, Medicine, General Medicine, medicine.symptom, business, Wound healing, Hot liquids

Abstract

Burns are defined as injuries produced in living tissues, due to the action of various physical agents (flames, hot liquids and objects, radiation, electric current, cold), chemical (caustic) and biological, which cause alterations ranging from a simple erythema until the total destruction of the structures...

Published

2021

29. From the Farm to the Lab: How Chicken Embryos Contribute to the Field of Teratology

Author

Gabriela Elis Wachholz, Bruna Duarte Rengel, Neil Vargesson, and Lucas Rosa Fraga

Subjects

drug/medicine safety, 0301 basic medicine, Drug, Anormalidades congênitas, animal structures, teratogens, media_common.quotation_subject, Review, QH426-470, Biology, Bioinformatics, Embrião de galinha, 03 medical and health sciences, 0302 clinical medicine, thalidomide, Genetics, Genetics (clinical), preclinical trials, ZIKV, media_common, Congenital malformations, Physical agents, Preclinical trials, Experimental model, Drug/medicine safety, Embryonic anomalies, Embryo, Teratology, Thalidomide, Teratógenos, Teratogens, 030104 developmental biology, embryonic anomalies, Experimentação animal, embryonic structures, gene expression, Molecular Medicine, Gene expression, congenital malformations, 030217 neurology & neurosurgery, Modelos animais

Abstract

Congenital anomalies and its causes, particularly, by external factors are the aim of the field called teratology. The external factors studied by teratology are known as teratogens and can be biological or environmental factors for example, chemicals, medications, recreational drugs, environmental pollutants, physical agents (e.g., X-rays and maternal hyperthermia) and maternal metabolic conditions. Proving the teratogenicity of a factor is a difficult task requiring epidemiology studies as well as experimental teratology evidence from the use of animal models, one of which is the chicken embryo. This model in particular has the advantage of being able to follow development live andin vivo, with rapid development hatching around 21 days, is cheap and easy to manipulate and to observe development. All this allows the chicken embryo to be used in drug screening studies, teratogenic evaluation and studies of mechanisms of teratogenicity. The chicken embryo shares morphological, biochemical and genetic similarities with humans as well as mammalian species, making them ideal to ascertain the actions of teratogens, as well as screen drugs to test for their safety. Pre-clinical trials for new drugs are carried out in rodents and rabbits, however, chicken embryos have been used to screen new compounds or analogs of thalidomide as well as to investigate how some drugs can lead to congenital malformations. Indeed, the chicken embryo has proved valuable in understanding how many congenital anomalies, seen in humans, arise following teratogen exposure. The aim of this review is to highlight the role of the chicken embryo as an experimental model for studies in teratology, exploring its use in drug screening studies, phenotypic evaluation and studies of teratogenic mechanisms of action. Here, we discuss many known teratogens, that have been evaluated using the chicken embryo model including some medicines, such as, thalidomide, valproic acid; recreational drugs including alcohol; environmental influences, such as viruses, specifically ZIKV, which is a newly discovered human teratogen. In addition, we discuss how the chicken embryo has provided insight on the mechanisms of teratogenesis of many compounds and also how this impact on drug safety.

Published

2021

30. Electromagnetic Field Exposure in Kindergarten Children: Responsive Health Risk Concern

Author

Yong Chul Shin, Deog Hwan Moon, Shiva Raj Acharya, and Sandip Pahari

Subjects

Electromagnetic field, 010501 environmental sciences, 01 natural sciences, Pediatrics, RJ1-570, Emf exposure, 03 medical and health sciences, Health problems, 0302 clinical medicine, Exposure level, children, electromagnetic field, Environmental health, Medicine, 030212 general & internal medicine, Health risk, 0105 earth and related environmental sciences, risk, Physical agents, business.industry, Mean value, transmission line, Brief Research Report, exposure, Pediatrics, Perinatology and Child Health, business

Abstract

Long-term exposure to physical agents can be detrimental to children due to their vulnerability. This study aimed to assess and compare the electromagnetic field (EMF) exposure level around the kindergartens from the underground transmission line (UGTL). We investigated randomly selected 24 kindergartens based on the location of the UGTL. The EMF emission levels were measured using an EMDEX II (Electric and Magnetic Digital Exposure Meter). The maximum mean value of the EMF emission level was 13.5 mG around the kindergartens and 17.7 mG from the point of UGTL to kindergartens. EMF emission level around the kindergartens was significantly associated with the location of the UGTL (t = −7.35, P < 0.001). These estimates are not trivial, as long-term exposure to EMF among kindergarten children can lead to different health problems. Routine monitoring of EMF emission levels is recommended including the awareness of EMF exposure to public citizens.

Published

2021

31. Special Issue on Toxicologic Neuropathology of the Peripheral Nervous System: A Special Compendium of Past, Present, and Future Developments in a Neglected Field

Author

Ingrid D. Pardo, Brad Bolon, and Deepa B. Rao

Subjects

Physical agents, 040301 veterinary sciences, business.industry, 04 agricultural and veterinary sciences, Cell Biology, Neuropathology, Toxicology, 030226 pharmacology & pharmacy, Compendium, Pathology and Forensic Medicine, 0403 veterinary science, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Peripheral nerve, Peripheral nervous system, medicine, business, Molecular Biology, Neuroscience

Abstract

Neuropathology of the peripheral nervous system (PNS) is an underappreciated area in toxicologic pathology. Toxicity to nerves and ganglia can result from toxic insults following exposure to environmental, occupational, and industrial chemicals; drugs and biologics; cosmetics and food additives; and even physical agents such as noise. The following introduction provides an overview of this special issue of Toxicologic Pathology on toxicologic neuropathology of the PNS and highlights the range of key topics in this field that are reviewed in this compilation.

Published

2019

32. Effectiveness of Short-Term Physical Agents Treatment on Macroscopic Morphology in Patients with Plaque Psoriasis

Author

Dominique Evelyn Pinto-Daza, Alejandro Pacheco, Leandra Norambuena-Mardones, Karla Daniela Troncoso-Fernández, Gabriel Nasri Marzuca-Nassr, and Kaio Fernando Vitzel

Subjects

Plaque psoriasis, medicine.medical_specialty, Physical agents, Balneotherapy, business.industry, Balneophototherapy, Phototherapy, Dermatology, Term (time), Psoriasis, Medicine, In patient, Anatomy, business

Abstract

SUMMARY: Psoriasis is a chronic inflammatory disease that presents skin rashes which can arise through plaques. The aim of this work was to compare the effectiveness of short-term physical agents treatment on macroscopic morphology (area and erythema) in patients with plaque psoriasis. This prospective randomized experimental study included fourteen subjects, medically diagnosed with psoriasis, with more than one plaque in the skin and voluntarily without topical treatment. All subjects completed the study that consisted of 12 treatment sessions divided in control (C), artificial balneotherapy (AB), phototherapy (PT) or balneophototherapy (BPT) groups. After session 12, there was a significant reduction of the plaque area by all treatments when compared to C group and BPT was the most effective one. However, only AB and PT presented a reduction of erythema. Regarding severity, 9 patients changed to a lower category on the PASI test, and 5 of them maintained a mild psoriasis, but lowered their score. Finally, 13 of 14 subjects improved their quality of life. The physical agents used reduced the severity of psoriasis and improved quality of life of patients after 12 sessions of treatment during a onemonth period. The BPT was the more effective in controlling psoriasis by diminishing its area and PT by attenuating the erythema.

Published

2019

33. Standardised evaluation of the electric field for meeting safety aspects for workers according to directive 2013/35/EU and VEMF

Author

Ernst Schmautzer, Katrin Friedl, Robert Schürhuber, and Andreas Abart

Subjects

Physical agents, Standardization, Guideline, Directive, National guideline, Occupational safety and health, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Documentation, Risk analysis (engineering), 030220 oncology & carcinogenesis, Business, Electrical and Electronic Engineering

Abstract

Workers in power supply systems are exposed to electromagnetic fields. These fields must not exceed the limit values set out in EU Directive 2013/35/EU (minimum health and safety requirements for workers with regard to exposure to the risk of physical agents (electromagnetic fields)) in order to protect workers against health risks. In Austria, a group of experts from the National Standardization Committee (OVE) has drawn up a national guideline (OVE guideline R 27) in order to prevent the diversity of assessment procedures. In addition, the guide aims to reduce time and effort in evaluation and documentation of electric and magnetic fields. This article provides an overview of the procedure and an assessment of the evaluated distances determined in accordance with OVE guideline R 27 for the protection of workers with regard to electric fields in substations.

Published

2019

34. Occupational Noise and Vibration Assessments in Forest Harvesting Equipment in North-eastern Brazil

Author

Marlice Paes Leme Vieira, Amaury Paulo de Souza, Luciano José Minette, Glícia Silvania Pedroso Nascimento, Cássio Furtado Lima, Stanley Schettino, and Roldão Carlos Andrade Lima

Subjects

Physical agents, Forest harvesting, Operators, Ruído - Efeito fisiológico, Vibração - Efeito fisiológico, Forestry, Colheita Florestal, Vibration, Noise, Health, Segurança do trabalho, Environmental science, Remote sensing

Abstract

CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior Occupational hazards arising from physical agents present in wood harvesting equipment may cause irreversible damage to the health of exposed operators. Thus, the objective of this study was to quantify the noise and vibration levels emitted by three types of wood harvesting equipment (Feller-buncher, Harvester and Forwarder) in a forestry company in north-eastern Brazil during a workday. Noise measurements were performed with an equivalent noise level meter (audiodosimeter) at the workstation and compared with the limits set in NR-15. To evaluate the vibration was used a full cup gauge, which has a sensor called triaxial accelerometer (directions X, Y and Z), installed on the operator's seat. As a result, the average noise dose of all activities in the operation studied did not exceed the maximum allowable limit of 85 dB (A) for 8 hours of continuous work. The whole body vibration in all equipment was below the exposure level, however, some equipment obtained indexes slightly higher than the alert level, a fact that shows a higher accuracy in the equipment.

Published

2019

35. CLINICAL DECISION MAKING FOR USE OF ELECTRO-PHYSICAL AGENTS BY PHYSICAL-THERAPY INTERNS AND POST- GRADUATE STUDENTS OF AHMEDABAD, INDIA: A CROSS-SECTIONAL SURVEY

Author

DravyaM Mistry

Subjects

Medical education, Physical agents, Clinical decision making, Cross-sectional study, Post graduate, Psychology

Published

2019

36. The role of analytical chemistry in exposure science

Author

Y. Bruinen De Bruin, Francisco José Martínez López, Félix Hernández, P. de Voogt, J.A. van Leerdam, Juliane Hollender, Barbara Kasprzyk-Hordern, Ana María Botero-Coy, E.A. Hogendoorn, S. Fischer, Marja H. Lamoree, Thomas L. ter Laak, Lubertus Bijlsma, Emma L. Schymanski, Juan V. Sancho, J. de Boer, and J. Bakker

Subjects

exposure science, Environmental Engineering, environmental analytical chemistry, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, water, 02 engineering and technology, Health protection, 010501 environmental sciences, Key issues, 01 natural sciences, High resolution mass spectrometry, Chemistry Techniques, Analytical, Human health, Environmental Chemistry, Humans, Direct analysis, Environmental planning, Ecosystem, 0105 earth and related environmental sciences, emerging contaminants, Chromatography, Emerging contaminants, Physical agents, Public Health, Environmental and Occupational Health, Water, Analytical Chemistry (journal), General Medicine, General Chemistry, Environmental Exposure, Environmental analytical chemistry, Pollution, Exposure science, SDG 11 - Sustainable Cities and Communities, 020801 environmental engineering, Aquatic environment, high resolution mass spectrometry, Environmental science, chromatography, SDG 6 - Clean Water and Sanitation, Environmental Monitoring

Abstract

Exposure science, in its broadest sense, studies the interactions between stressors (chemical, biological, and physical agents) and receptors (e.g. humans and other living organisms, and non-living items like buildings), together with the associated pathways and processes potentially leading to negative effects on human health and the environment. The aquatic environment may contain thousands of compounds, many of them still unknown, that can pose a risk to ecosystems and human health. Due to the unquestionable importance of the aquatic environment, one of the main challenges in the field of exposure science is the comprehensive characterization and evaluation of complex environmental mixtures beyond the classical/priority contaminants to new emerging contaminants. The role of advanced analytical chemistry to identify and quantify potential chemical risks, that might cause adverse effects to the aquatic environment, is essential. In this paper, we present the strategies and tools that analytical chemistry has nowadays, focused on chromatography hyphenated to (high-resolution) mass spectrometry because of its relevance in this field. Key issues, such as the application of effect direct analysis to reduce the complexity of the sample, the investigation of the huge number of transformation/degradation products that may be present in the aquatic environment, the analysis of urban wastewater as a source of valuable information on our lifestyle and substances we consumed and/or are exposed to, or the monitoring of drinking water, are discussed in this article. The trends and perspectives for the next few years are also highlighted, when it is expected that new developments and tools will allow a better knowledge of chemical composition in the aquatic environment. This will help regulatory authorities to protect water bodies and to advance towards improved regulations that enable practical and efficient abatements for environmental and public health protection.

Published

2019

37. Abordaje fisioterapéutico por medio de agentes electro físicos en las úlceras vasculares venosas

Author

María Laura Bolaños-Valverde and Juan Rivera-Vargas

Subjects

Physical agents, business.industry, Anesthesia, General Engineering, Clinical reasoning, Medicine, Tissue repair, business, Complete resolution

Abstract

Los estímulos electromagnéticos han demostrado su utilidad en el manejo de úlceras de cualquier tipo, debido a que sus efectos estimulan la liberación de fibroblastos y macrófagos en la zona afectada, el crecimiento y la diferenciación celular. Así mismo, permite dirigir de manera eficaz la bioelectricidad endógena, la cual representa un factor esencial en el proceso de curación corporal. El reporte de caso que se expone a continuación es de una usuaria de 87 años de edad, quien asiste a la Clínica Santa Paula a consulta por una ulcera vascular venosa en su pierna izquierda de un año de evolución, la cual había sido tratada con recursos médicos y farmacológicos sin resultados positivos. Se aplicaron las modalidades eléctricas de Alto Voltaje y Microcorriente sin ningún otro tratamiento coadyuvante o tipo de ejercicio, durante 21 sesiones atendiéndose en promedio cada 7,8 días, mejorando un 4,47% el diámetro de la herida por sesión y obteniendo una resolución completa de la herida en 4 meses de tratamiento. Conclusiones: Los agentes electro físicos como la Microcorriente y el Alto Voltaje son recursos idóneos para facilitar procesos endógenos de reparación tisular, así mismo el razonamiento clínico y la evaluación diaria y meticulosa son fundamentales para una dosificación correcta ya que no existen protocolos establecidos para su uso.

Published

2019

38. Impact of working place on reproduction

Author

Vid Janša, Neva Metelko Janša, Helena Ban Frangež, and Marjan Bilban

Subjects

fertility, course of pregnancy, physical agents, chemical agents, biological agents, psychosocial stress, legislation, Medicine

Abstract

Women of childbearing potential and pregnant women are particularly vulnerable and deserve special attention in terms of occupational safety. Work environment can affect fertility, pregnancy and birth. Today we know many different harmful factors that can adversely affect a mother-to-be and her unborn child, and the data on the impact of certain factors on fertility is increasing. There is evidence that certain physical, chemical and biological factors are harmful for reproductive health. Today many researchers focus their work on the adverse effects of psychosocial stress.

Published

2014

39. Mechanistic Biomarkers in Toxicology

Author

Sonia Sanajou and Gönül Şahin

Subjects

Human health, Physical agents, business.industry, Pharmaceutical Science, Molecular Medicine, Medicine, Biomarker (medicine), Disease, Review, Bioinformatics, business

Abstract

Biomarkers are important parameters that are reliable, applicable, reproducible, and generally inexpensive. All biomarkers have a significant role in human health, especially mechanistic biomarkers, which are the most important for the prevention of toxic effects and diseases. They demonstrate the possibility of diagnosis, prognosis, recurrence, and spread of disease. Furthermore, they show the exposure levels to numerous chemical, biological, and physical agents. To date, the development and application of biomarkers require the knowledge of mechanisms underlying their production. Therefore, the present study focused on the possible mechanistic biomarkers.

Published

2021

40. Domestic Injuries and Physical Agents: A Disregarded Health Issue among Housewives in Raipur, India

Author

Tapati Bhattacharjee and Jaita Mondal Ghosh

Subjects

Physical agents, Environmental health, Housewives, Public Health, Environmental and Occupational Health, Domestic injuries, Relative humidity, Business, Public aspects of medicine, RA1-1270, Safety Research, Vision problem

Abstract

Introduction: Housewives perform various household works both inside and outside the home, which may cause domestic injuries and ill health. Domestic injuries are usually sustained due to exposure to various physical agents. The objectives of the current study were to find out the various physical agents, the prevalence of various types of domestic injuries & to find out the association between domestic injuries and selected physical agents.Methods: In this study 500 housewives aged more than 18 years from villages of Raipur, Chhattisgarh were selected by multistage stratified random sampling. Demographic information, the occurrence of domestic injuries, and the factors associated with injuries were collected by questionnaires, interviews, and observation technique. Collected data were analyzed by using SPSS 16 statistical package. Results: Results showed that the mean age of housewives was 39.27 (±12.07) years and the majority of them were between 22-35 years of age group. Data revealed that 59% of housewives had suffered from domestic injuries. Out of them, the majority were suffering from vision problems (45.1%) and headache (36%), 21% suffered from heat, 15% got cut and 14.8% had fire burn from home environment. Around 14% got eye irritation and 12.8% of housewives had experienced falls on the floor. A significant association was found between injuries and physical agents. Conclusion: The study concluded that housewives are exposed to various physical agents in their own homes, which contributes to the prevalence of various types of domestic injuries among them. Housewives themselves and family members have to be aware of those physical agents present in their home which silently affecting their health.

Published

2021

41. Skinfold thickness affects the isometric knee extension torque evoked by Neuromuscular Electrical Stimulation.

Author

Medeiros, Flávia V. A., Vieira, Amilton, Carregaro, Rodrigo L., Bottaro, Martim, Maffiuletti, Nicola A., and Durigan, João L. Q.

Subjects

*BODY weight, *STATISTICAL correlation, *ELECTRIC stimulation, *RANGE of motion of joints, *KNEE, *MUSCLE contraction, *RESEARCH funding, *SKINFOLD thickness, *STATURE, *TORQUE, *STATISTICAL power analysis, *EFFECT sizes (Statistics), *VISUAL analog scale, *DATA analysis software, *DESCRIPTIVE statistics, *MANN Whitney U Test

Abstract

Background: Subcutaneous adipose tissue may influence the transmission of electrical stimuli through to the skin, thus affecting both evoked torque and comfort perception associated with neuromuscular electrical stimulation (NMES). This could seriously affect the effectiveness of NMES for either rehabilitation or sports purposes. Objective: To investigate the effects of skinfold thickness (SFT) on maximal NMES current intensity, NMES-evoked torque, and NMES-induced discomfort. Method: First, we compared NMES current intensity, NMES-induced discomfort, and NMES-evoked torque between two subgroups of subjects with thicker (n=10; 20.7 mm) vs. thinner (n=10; 29.4 mm) SFT. Second, we correlated SFT to NMES current intensity, NMES-induced discomfort, and NMES-evoked knee extension torque in 20 healthy women. The NMES-evoked torque was normalized to the maximal voluntary contraction (MVC) torque. The discomfort induced by NMES was assessed with a visual analog scale (VAS). Results: NMES-evoked torque was 27.5% lower in subjects with thicker SFT (p=0.01) while maximal current intensity was 24.2% lower in subjects with thinner SFT (p=0.01). A positive correlation was found between current intensity and SFT (R=0.540,P=0.017). A negative correlation was found between NMES-evoked torque and SFT(r=-0.563, p=0.012).No significant correlation was observed between discomfort scores and SFT (rs=0.15,p=0.53). Conclusion: These results suggest that the amount of subcutaneous adipose tissue (as reflected by skinfold thickness) affected NMES current intensity and NMES-evoked torque, but had no effect on discomfort perception. Our findings may help physical therapists to better understand the impact of SFT on NMES and to design more rational stimulation strategies. [ABSTRACT FROM AUTHOR]

Published

2015

42. Can transcutaneous electrical nerve stimulation improve achilles tendon healing in rats?

Author

Folha, Roberta A. C., Pinfildi, Carlos E., Liebano, Richard E., Rampazo, Érika P., Pereira, Raphael N., and Ferreira, Lydia M.

Subjects

*ACHILLES tendon rupture, *ANALYSIS of variance, *ANIMAL experimentation, *BIOLOGICAL models, *COLLAGEN, *RATS, *STATISTICS, *TRANSCUTANEOUS electrical nerve stimulation, *DATA analysis, *DATA analysis software, *THERAPEUTICS

Abstract

Background: Tendon injury is one of the most frequent injuries in sports activities. TENS is a physical agent used in the treatment of pain but its influence on the tendon's healing process is unclear. Objective: To evaluate the influence of TENS on the healing of partial rupture of the Achilles tendon in rats. Method: Sixty Wistar rats were submitted to a partial rupture of the Achilles tendon by direct trauma and randomized into six groups (TENS or Sham stimulation) and the time of evaluation (7,14, and 21 days post-injury). Burst TENS was applied for 30 minutes, 6 days, 100 Hz frequency, 2 Hz burst frequency, 200 µs pulse duration, and 300 ms pulse train duration. Microscopic analyses were performed to quantify the blood vessels and mast cells, birefringence to quantify collagen fiber alignment, and immunohistochemistry to quantify types I and III collagen fibers. Results: A significant interaction was observed for collagen type I (p=0.020) where the TENS group presented lower percentage in 14 days after the lesion (p=0.33). The main group effect showed that the TENS group presented worse collagen fiber alignment (p=0.001) and lower percentage of collagen III (p=0.001) and the main time effect (p=0.001) showed decreased percentage of collagen III at 7 days (p=0.001) and 14 days (p=0.001) after lesion when compared to 21 days. Conclusions: Burst TENS inhibited collagen I and III production and impaired its alignment during healing of partial rupture of the Achilles tendon in rats. [ABSTRACT FROM AUTHOR]

Published

2015

43. Role of physical agents in vocal rehabilitation: a literature review

Author

Fuentes Aracena, Christopher and Fuentes Aracena, Christopher

Abstract

Physical agents are natural or artificial elements that are applied for the treatment of certain symptoms or pathologies. In vocal rehabilitation, the study of physical agents is an emerging area, where systematic reviews and meta-analyzes are scarce. This, many times, hampers the decision making and the correct choice by the clinician. The objective of this study was to analyze the role of physical agents in vocal rehabilitation. A literature review was conducted through the search for papers in the databases PubMed, EBSCOHost and Scielo. Eligibility criteria were established according to type, year and characteristics of the studies. Six hundred and three (603) papers were assessed, of which, following the analysis of their titles, abstracts and compliance with the eligibility criteria, 16 were selected. Results were delivered based on the number of participants, level of evidence, type and setup of the physical agent, evaluation procedures and instruments and benefits obtained. The most frequently used physical agents in the vocal clinic are electrotherapy (TENS and NMES) and laser therapy. In general, they act as adjuvants in vocal therapy. TENS reduces pain, laryngeal tension and tight voice perception during phonation. NMES benefits the neuromuscular activation of vocal cords, and the laser use allows for the recovery of laryngeal tissues after vocal overloading tasks., Los agentes físicos son elementos naturales o artificiales que se aplican para el tratamiento de determinados síntomas o patologías. En la rehabilitación vocal su estudio es un área emergente, donde las revisiones sistemáticas y los meta-análisis son escasos. Esto, muchas veces, dificulta la toma de decisiones y la correcta elección por parte del clínico.  El objetivo de este trabajo fue analizar el rol de los agentes físicos en la rehabilitación vocal. Se realizó una revisión de la literatura a través de la búsqueda de artículos en las bases de datos PubMed, EBSCOHost y Scielo. Se establecieron criterios de elegibilidad según tipo, año y características de los estudios. Se evaluaron 603 artículos, de los cuales, luego del análisis de su título, abstract y del cumplimiento de los criterios de elegibilidad, se seleccionaron 16. Se entregan resultados en base a la cantidad de participantes, nivel de evidencia, tipo y configuración del agente físico, procedimientos e instrumentos de evaluación y beneficios obtenidos. Los agentes físicos de mayor utilización en la clínica vocal son la electroterapia (TENS y NMES) y la laserterapia. En general, estos actúan como coadyuvantes en la terapia vocal. La TENS reduce el dolor, la tensión laríngea y la percepción de voz apretada durante la fonación. La NMES beneficia la activación neuromuscular de las cuerdas vocales y el uso de láser permite la recuperación de los tejidos laríngeos posterior a tareas de sobrecarga.

Published

2020

44. Effects of Age on Extracellular Matrix of Muscle Spindle in Skeletal Muscle

Author

Ugo, Carraro and Zipora, Yablonka-Reuveni

Subjects

Simvastatin, muscle, sarcoplasmic reticulum (SR), dynamic MRI, muscle oxygen saturation, Euganean Thermal District, collagen type III, EMG, Essential, motor unit, immunodeficient mouse hosts, pericyte, CD82, satellite cell, caspase 3, complementary medicine, IUR, FOP, Padua Muscle Days, motoneuron, mono-galactosyldiacylglycerols, resting force, Motor Units, exopolysaccharides, novel mouse models, resident cells, mitochondrial adaptations, live imaging, instrumental evaluation, endothelial cells, macrophages, loading, high-fat diet, spa therapy, diaphragm, CRISPR, ichthyosis, fiber aligned strains, muscle growth, hypertrophy, HDEMG, biological interpretation of miRNA dysregulation, cranial myogenesis, Article, molecular regulation, hyaluronan, host gene, proteomics, Histone Deacetylase, GHSR-1a, autocrine signaling, Machine learning, unloading, Mobility Medicine, mechanomyography, muscle hypertrophy, skeletal muscle, intramuscular connective tissue, dynamic contractions, nestin-GFP, mechanotransduction, Decomposition, denervation, Muscle strength, mitochondrial control of cytosolic calcium, Physical exercise, Convalescence, T1 mapping, firing rate, Parkinson’s disease, cell therapy, muscle spindle, myofibers, collagen, muscle atrophy, tendon, dysphagia, Balneotherapy, 2-deoxy-ATP, hemoglobin amount, mitochondrial Ca2+ uptake, Pax3/7, respiratory function, motor control, oxidative stress, compressed sensing, finite element model, endurance, satellite cells, HMGB1, sarcomere length, training, CFTR correctors, micro-dystrophin, aggregation, health, Tetraspanin, Nuclear misplacement, Mitochondria, cell tracking, Differentiation, biomarker, sarcoglycanopathies, musculoskeletal disorders, ageing research, CT, muscular dystrophy, Therapeutic Physical Agent, tumor, pool size, systolic function, Pink1-Parkin, holding isometric muscle function, facioscapulohumeral muscular dystrophy, contracture, Cyanobacteria, cachexia, uremic myopathy, HDsEMG decomposition, Translational Myology and Mobility Medicine, stem cell proliferation, Functional Electrical Stimulation, aging, fibrosis, COVID-19, hypo-gravity, neuromuscualr junction, muscle regeneration and repair, stem cell, inflammation, ageing, plasticity, eccentric exercise, stereology, activin A, sarcomere, hyper-gravity, Duchenne muscular dystrophy cardiomyopathy, sarcomere operating length, recruitment threshold, chronic kidney disease, Aging muscle, Follistatin, isometric muscle action, macromolecular fraction content, Lipid disorder, adaptation, Neural Drive, Chanarin-Dorfman Syndrome, 2021 PDM3 Program & Abstracts, calcium entry unit (CEU), transcriptomics, growth hormone secretagogues, Rhabdomyosarcoma, Glycogenosis type 2, dystrophic mouse model of MΦ depletion, Adaptive Force, dental practice, muscle biomechanics, reactive oxygen species, excitation-contraction (EC) coupling, exercise, Historical, ultrasound, PABPN1, Myogenesis, Parvalbumin knock out mice, aerobic metabolism, symmetric/asymmetric cell division, Iontophoresis, proteomic analysis, Sertoli cell, gene therapy, ERK signaling, TCM, Cholesterol, nutrition, Myogenin-Tomato KI mouse, SRF, prevention and rehabilitation, strength, Pulsed-Shortwave Diathermy, force, cancer cachexia, Duchenne muscular dystrophy, Novel mechanisms, long-term denervated human muscles, masticatory muscles, nuclear positioning, apical, fiber death, muscle stem cell heterogeneity, mud therapy, doxorubicin, atrophy, Transcutaneous auricular-nerve stimulation, Galvanic Current, rehabilitation exercisetraining, quiescence, human, FoxP1, anti-inflammatory bioactive molecules, cerebral palsy, oxidative modifications, skeletal muscle ultrastructure, Pax3, Health resort medicine, muscle quality tissue, Ca2+ entry unit (CEU), mitochondrial permeability transition pore, Electron Microscopy (E.M.), muscle stem cells, balneology, fibro/ adipogenic progenitors, modulus, regeneration, Padua Days, caveolae, Crosstalk between MΦs, muscular dystrophies, SREBP2, permeability, senescence, TNPO3, PGC-1α, 3D strain imaging, Physical Agents, chemotherapy, network physiology, nutritional intervention, muscle damage, high density electromyography, basal, lipid metabolism, blood flow, connective tissue, mass spectrometry, deltoid muscle, muscle regeneration, active force, alkaline Glauber's salt, AAV, ultrastructure, IGF-I, SRSF1, E3 ubiquitin ligase, liver involvement, olfaction, myopathy, sampling, extracellular matrix, peloidotherapy, collagen type I, histological study, sarcomerogenesis, muscle differentiation, extraocular muscle, fascicle length, heat-stroke, TGFβ, Oculopharyngeal Muscular Dystrophy, store-operated Ca2+ entry (SOCE), external ear, cancer, myosin activator, corticomuscular coherence, ASB2, AAV-micro-dystrophin, Contractile Speed, skeletal muscle fibers, epigenetics, conventional Western medicine, muscle wasting, fibro/adipocyte, bilateral motor task, calcium deregulation, elastic fiber, drop-jump, heterotopic ossification, dissector, neural connectivity, soft tissues, perimysium

Abstract

On 19-21 November 2020, the meeting of the 30 years of the Padova Muscle Days was virtually held while the SARS-CoV-2 epidemic was hitting the world after a seemingly quiet summer. During the 2020-2021 winter, the epidemic is still active, despite the start of vaccinations. The organizers hope to hold the 2021 Padua Days on Myology and Mobility Medicine in a semi-virtual form (2021 S-V PDM3) from May 26 to May 29 at the Thermae of Euganean Hills, Padova, Italy. Here the program and the Collection of Abstracts are presented. Despite numerous world problems, the number of submitted/selected presentations (lectures and oral presentations) has increased, prompting the organizers to extend the program to four dense days., The overall turnover of the tendon and cartilage in humans seems to be taking place primarily within the first 13-17 years of life (markedly lower than turnover of contractile protein in muscle), indicating that the major basic structure remains relatively unchanged through adult life. Nevertheless, mechanical loading of adult human tendon (and intramuscular connective tissue) results in tendon cell responses by producing anabolic growth factors and loading-induced increase in tendon collagen synthesis. Comparing tissue turnover in different tissues simultaneously suggests that a combination of a more basic structure that remains relatively unchanged through adult life, and a smaller pool of collagen that is more quickly turned over and can be influenced by mechanical loading. Conversely, physical inactivity down regulates collagen synthesis and phenotypic tendon characteristics. Adjustment of the tendon mechanical properties in the form of increased stiffness and modulus after strength training, and the reverse after period of immobilization occurs relatively faster than macroscopic morphological changes of tendon. Age related changes in tendon connective tissue with reduced stiffness is largely explained by a reduction in overall physical activity and can thus be at least partly counteracted by regular training., Tendons play a fundamental role in transmitting forces generated by skeletal muscle and in acting as springs during locomotion. Because of their anatomical arrangement, the mechanical properties of tendons affect those of skeletal muscle, above all, the length-force relation.1,2 With ageing, human tendon mechanical properties (stiffness, Young’s modulus and hysteresis) seem to deteriorate,3-6 although reports of no changes also exist.7 These alterations potentially contribute to the loss of muscle force with ageing.8 However, tendons retain considerable plasticity in response to chronic loading in old age since their mechanical properties can be substantially improved by high-intensity resistance exercise training (RET). Indeed, after 14 weeks of RET in septuagenarian males, patellar tendon stiffness and Young’s modulus and hysteresis were found to improve by 65% and 69% respectively, restoring tendon properties to values comparable to those of young adults.9,10 These improvements were mostly due to changes in tendon tissue material properties rather than to tendon hypertrophy. Also, the increase in tendon stiffness was associated with a faster rate of force development, a finding of particular relevance for falls prevention. While traditional RET consists of both concentric (CON) and eccentric (ECC) contractions, ECC contractions are metabolically less demanding and therefore may be more suitable for an older population. Thus, we investigated the tendon adaptations and time course, to 8-week, 3 times/week, submaximal (60% 1RM) CON only or ECC only RET in 20 healthy young (24.5±5.1yrs) and 17 older males (68.1±2.4yrs). Patellar tendon (PT) Young's modulus and stiffness were assessed every 2 weeks. Changes in PT Young's modulus were observed after only 4 weeks in all groups. Importantly, both CON and ECC resulted in similar changes of PT Young's modulus at week 8, in both young and older males indicating that tendons are ‘blind’ to the direction of muscle loading (11). Notably, changes in tendon tissue seemed to occur in a coordinated fashion with those of skeletal muscle; presumably in an effort to maintain the efficacy of the muscle-tendon unit. These findings demonstrate that despite the effects of aging, tendons retain considerable adaptability to chronic loading, recovering material properties comparable to those of young healthy adults., Muscle spindle (MS), as a stretching receptor, plays a crucial role in proprioception and locomotor coordination in musculoskeletal system.1 They are very sensitive to stretch, feeling a tension of few grams. For that reason, the elasticity and viscosity of the extracellular matrix (ECM) where MSs are placed could play a key role to define their sensitivity to movements.2 It is well known that their sensitivity decreases with aging, causing postural sway and gait stability deterioration,3,4 but the relationships, between the extracellular ECM where MSs are placed and aging, are unclear. Therefore, the aim of this study was to investigate whether the contents of ECM where MSs are placed change with aging, to better understand if age-related physiological changes of muscle spindles could be due also to an alteration of the environment where they are located, and not only to neurodegeneration. Hematoxylin Eosin, Picrosirius-red, collagen type I (COLI) and III (COLIII) antibodies, and biotinylated hyaluronan binding protein (HABP) immunohistochemistry staining were used to evaluate alterations in intramuscular connective tissue (ICT) around the MS and of the ECM of MS itself in 6-weeks puberty (group A), 8-months middle age (group B) and 2 years old (group C) C57BL/6J male mice hind limb muscles. All the MS capsules are continuous with the perimysium of the skeletal muscle. The outer layer of capsule becomes thicker with aging, passing from3.02 ±0.26μm in group A to 3.64 ±0.31μm in group B and 5.81 ±0.85 μm in group C. The capsules of the MSs and the ICT mainly comprise COLI and COLIII. The collagen content in whole muscle and inside MS was significantly higher in the group C, whereas there were no significantly differences of these parameters between group A and group B. The average optical density (AOD) of COLI in the MS was significantly increased with aging (P0.05). In addition, HA is present in the ICT and fills the capsule of MS. The AOD of the HABP immunohistochemistry staining of the MS highlights a decreasing of HA in group C compared to group A (P=0.022), whereas, there were no significant difference between group A and group B and between group B and group C (P>0.05). The accumulation of collagen content and decreased HA in ECM where MSs are placed could change the adaptability of ICT to stretch and movements, reducing the sensitivity of MS to dynamic and static lengthening. These alterations of ECM where MSs are placed could help to explain the peripheral mechanisms of the decline of age-related proprioception and locomotor coordination., The age-related loss of joint mobility (LJM) sets limitations to independent life and increases the risk of falls and hospitalization, with a strong impact on life conditions and social costs1. One of the major causes of LJM is muscle weakness, which is associated to functional impairment and loss of independence and is recognized as an independent risk factor for increased mortality of older people. In this respect, a striking phenomenon is that the decrease of muscle mass with aging (sarcopenia) is accompanied by a much greater decline in muscle strength (dynapenia). Several studies suggest that the greater decline of muscle force compared to muscle mass is associated with a decreased ability to laterally transmit the force generated by muscle fibers2. This effect, which reduces the efficiency force transmission at the macroscopic level, is generated, at least partially, by alterations of the extra-cellular matrix (ECM) with aging. ECM is a hierarchical structure that surrounds single fibers (endomysium), fascicles (perimysium) and the whole muscle (epimysium). Therefore, to quantitatively assess the role of this alteration at any level, multiscale finite element modelling is a powerful tool. However, experimental data collection is a crucial step to implement modeling and achieve reliable predictions. To this aim we compared, in a recent work3, the relative contribution of the ECM to passive tension and stiffness in small bundles in young healthy (Y: 21 years) and older (E: 67 years) males. We showed that the resting passive tension is significantly higher in the bundles of the older compared to those of the younger males, while no significant difference was found in single fibers. The difference was then attributed to the ECM present between the fibers composing the bundle. However, our data suggested that the larger amount of collagen present in older males (3.3% in the younger and 8.2% in older males) can fully account for the observed difference in total tension, and that the intrinsic stiffness of the connective material was almost unchanged or even more compliant in older individuals. ECM Young’s modulus was 580 kPa for the older males and 809kPa for the younger males. To assess how the active force development is affected by the age-dependent changes observed in resting conditions, we developed a micromechanical multiscale finite element (FE) model. The model simulates a muscle bundle formed by a few fibers connected through the ECM. Importantly, the model uses separated meshes for the connective tissue and the contractile material and specific assumptions for the links between the meshes at the border between ECM and muscle fibers. Using our experimentally-based parameters, we can quantitatively assess the influence of ECM age-related modifications on lateral force transmission. In detail, we reproduced three classical experimental evidences4–6 supporting the contribution of lateral force transmission during contraction, and analyzed the results using the parameters for both younger and older men. The data obtained provide clear evidence of the contribution of changes of ECM to the loss of contractile force with aging., Nonlinear trimodal regression analysis (NTRA) is a recent methodology for modelling the radiodensitometric distributions of x-ray computed tomography (CT) scans, producing 11 patient-specific features which characterize qualitatively and quantitatively the lean muscle, fat, and loose connective tissues. In this paper, the association of these 11 NTRA features with age and physical activity is investigated in the population-based AGES-I dataset (n = 3,157 elderly volunteers). First, univariate statistical analyses were performed through IBM SPSS (version 25) using Kruskal Wallis and post-hoc tests, where subjects were grouped by age and self-reported past (youth and mild-life) and present (within 12 months of the survey) physical activity to ascertain which parameters were most influent on the grouping variables. Then, machine learning (ML) analyses were conducted through Knime Analytics Platform (version 4.1.1) to classify patients employing NTRA parameters as input features for three decision tree based ML algorithms (random forests, gradient boosting, and ADA-boosting). This classification analysis yielded poor results (accuracies did not overcome 60%), and regression analyses were not particularly reliable or robust. However, univariate statistical models suggested that NTRA parameters may be strongly sensitive to age and differences between past and present physical activity levels. Moreover, for both age and physical activity, lean muscle parameters expressed greater variation, compared with fat and connective tissues. This paper consists in further evidence that radiodensitometric distribution values are sensitive to changes in physiological parameters., Extracellular matrix (ECM) of intramuscular connective tissue (IMCT) play critical role not only in maintaining integrity of muscle,1 but also in providing mechanical properties and local signals to modulate muscle cell fusion and regeneration. It is known that the muscles present many degenerative processes with aging.2,3 However, the effects of aging in the ECM of IMCT are unclear. Therefore, the aim of this project was to investigate whether the contents of ECM of IMCT change with aging, to better understand the possible effects of age-related ECM alterations of IMCT in the peripheral neuro-pathophysiological mechanisms of locomotor ability deficits. Age-related changes of ECM in human quadriceps femoris were compared in 10 young men (37.5±9.0y), 12 elderly men (79.0±12.4y) and 16 elderly women (80.6±11.4y) patients with traumatic fracture (Studio 3027P/AO/13). Age-related ECM alterations in mice hind limb were compared in 6-weeks puberty (group A); 8-months middle age (group B) and 2-years old (group C) C57BL/6J male mice. Hematoxylin Eosin, Picrosirius-red, the collagen type I (COLI), III (COLIII) antibody, and biotinylated hyaluronan binding protein (HABP) immunohistochemistry staining were used to evaluate the morphology, collagen content, COLI, COLIII and HA both in human and mice muscle cross-section. Alcian Blue, Weigert Van Gieson staining were used to evaluate the glycosaminoglycans, elastic fiber, in human male specimens. Age-related alterations of HA concentrations were evaluated both in human and mice specimens using Purple-Jelley HA assay. Muscle loss and fat infiltration were present in most elderly samples, especially in the subjects over 70 years old. The area percentage of collagen contents were significantly elevated in the elderly group compared to young men group (P, Passive skeletal muscle mechanical properties are not as well understood as their active contractile properties. Both the structural basis for passive mechanical properties and the properties themselves are challenging to determine because it is not clear which structures within muscle actually bear passive loads and the best way to make mechanical measurements. Early studies showed the clear and important role of titin as a muscle fiber load bearing structure,1 but studies comparing single muscle fibers to small fiber bundles suggest that much more load is borne extracellularly.2-4 Recently, we have performed more high resolution structural and functional studies of the ECM using three different approaches: confocal microscopy on muscle fiber segments,5 three-dimensional reconstruction of electron micrographs,6 and traditional stereology.5 These studies reveal the presence of perimysial cables that generally extend parallel to muscle fibers. Studies using the desmin knockout mouse model of fibrosis,7,8 also demonstrate that the number of cables as well as their size appear to be regulated. Finally, the cellular basis of fibrosis in the ECM was investigated using a transgenic mouse model in which Type I collagen producing cells were labeled with GFP.9 These studies revealed that muscle satellite cells, fibroblasts and fibroadipogenic progenitor cells all appear to participate in the fibrotic response. We suggest that new high resolution methods are needed at larger scales as well as a standardized set of rules for the reporting of passive mechanics to allow cross-study comparisons. Such studies are required to develop therapies to treat disorders in which passive muscle properties are altered in conditions such as muscular dystrophy, traumatic laceration, and contracture due to upper motor neuron lesion as seen in spinal cord injury, stroke and cerebral palsy., In old age, there appears to be elevated passive tension for a given muscle length1. Aging muscles undergo structural remodeling, whereby muscle fascicle lengths become shorter in old as compared with young2,3. Thus, the fascicles and sarcomeres of muscles in older adults may experience greater relative length changes for a given displacement or joint angular rotation, resulting in increased passive tension as compared with young. The purpose of this study was to compare the medial gastrocnemius of young and old rats to determine differences in fascicle length, serial sarcomere numbers and the sarcomere length at which peak force is obtained (optimal reference length; RL), and record passive tension from short to long muscle lengths. Two groups of Fisher344x BN rats were used in this experiment, a young cohort (≈9 months ≈20 human years) and old cohort (~32 months; ≈75-80 human years). The MG from the right leg was surgically isolated, attached to a custom made muscle puller and force transducer. Passive force was recorded at nine muscle lengths relative to the length producing optimal active force. Following passive force and length measurements, the animals were sacrificed and the hind limb was fixed in formalin at the muscle length corresponding to optimal force. The muscles were then dissected into four lengthwise sections medial and lateral of the center and sarcomere length measurements4 were obtained. A reduction in muscle fascicle length of ~14% was observed in the old rats when compared to young (p0.05). While there was no difference in passive tension at short muscle lengths between groups, old rats experienced up to ~125% greater passive tension at long muscle lengths as compared with young (p, It is canonically thought that muscle adaptations to loading and unloading are governed by the addition and subtraction of sarcomeres, respectively, both placed in parallel or in series. If we consider muscle fiber hypertrophy, fiber radial growth is mainly governed by an addition of in-parallel material, whereas longitudinal fiber growth is dependent on new sarcomeres added in-series. For these reasons, serial sarcomerogenesis has been studied since the 1960s to gain insight into the mechanisms that regulate muscle plasticity and adaptations to different mechanical stimuli. Interestingly, a majority of the early reports (work of Goldspink, Williams, Tabary and Tardieu, etc, in the 70’s and 80’s) were obtained in animal models after/during immobilization (long vs. short muscle lengths), indeed showing distinct adaptations in serial sarcomere length and number.1,2 Specifically, it seems that when adult animals are exposed to immobilization stimulus at shorter muscle lengths, a loss of serial sarcomere number occurs. Conversely, when immobilization is performed at stretched muscle lengths, an addition of sarcomeres in series is observed. However, no study investigating sarcomerogenesis has been currently performed on humans apart from a single case study (Vastus Lateralis distraction after femur reconstruction)3 and animal studies are somehow contradictory, as they present data of presence or absence of sarcomerogenesis but in different species, muscles, conditions, intervention duration.4,5 The purpose of this talk will be to present an overview of the main evidence of structural adaptations at whole muscle and sarcomere level to use and disuse. In addition, evidence of the use of novel techniques to gain insight into human sarcomeres in-vivo will be discussed.6,7, Fig 1.SL in the 4 different DJ phases (JO, GC, MAJ, PO) in 1g (red dots), hypo-gravity (blue dots) and hyper-gravity (green dots). The L-T relationship of hypo- and hyper-gravity has been shifted on the x axis to the left and right, respectively, to allow for dots visualisation. The regulation of sarcomere length during stretch-shortening cycle (SSC) activities performed in variable gravity is unknown. Drop-jumping (DJ), a common SSC activity, involves three phases: pre-activation of antigravity muscles, landing and push-off (PO) to perform a vertical jump. The ability to absorb ground impact and generate propulsive forces depends on tendon strain and fascicle length (Lf). Hence, the region of operation of sarcomeres along the muscle length-tension (L-T) relation is a determinant factor for DJ performance. This study investigated changes in Lf and sarcomere operational length throughout the phases of DJs performed in normo-gravity (1g), hyper-gravity (Hg) and hypo-gravity (hg). Fifteen volunteers performed repeated DJs in 1g, hg (0 to 1g), and Hg (1 to 2g) during a parabolic flight. Gastrocnemius medialis (GM) electromyographic (EMG) activity and Lf were measured at rest (bipedal standing), jump-off (JO, with the foot raised before jumping down), ground contact (GC), minimum ankle joint (MAJ, end of landing) and PO. GM sarcomere number (Sn) was estimated by dividing Lf measured by ultrasound at rest by sarcomere length (SL), measured in-vivo at the same joint angle (3.16 μm)1. Changes in SL were estimated by dividing Lf in each jump phase by Sn calculated individually (Figure 1.). The sarcomere force-generating capacity was estimated from the sarcomere L-T relation described by Walker and Schrodt.2 At JO in 1g, SL was 2.55μm, close to the L-T relation plateau. At GC and MAJ, SL shifted to the left, down the ascending limb of the L-T curve. Fascicles and sarcomeres shortened from JO to GC (pre-activation) and behaved quasi-isometrically from GC to MAJ, enabling tendon elongation and storage of elastic energy. Surprisingly, at PO, SL was extremely short (1.49μm), a length at which only 40% of maximum sarcomere force is expected to be produced. Notably, this condition is reached with the ankle in full plantarflexion, causing maximum tendon stretch. From MAJ to PO, a marked EMG decrease seemed to confirm that most of the energy needed for the PO is provided by the tendon recoil. Lf at JO was shorter in hg and Hg than in 1g, reflecting a downward shift of SL along the L-T relationship (range 1.96-2.11μm Hg and 2.23-2.33μm hg). During pre-activation, less SL shortening occurred in Hg and hg than in 1g, followed by lengthening of Lf and sarcomeres between GC and MAJ. Remarkably, at MAJ, Lf reached values similar to those of 1g, enabling sarcomeres to produce about 70% of maximum force. In the last phase, from MAJ to PO, a strong contraction markedly reduced SL to values of 1.44-1.53 μm. In conclusion, regardless of the gravity level, muscle activation appears finely regulated to enable fascicles to operate in the ascending portion of the L-T relation. Such neuromuscular mechanism seems to limit fascicle elongation during the breaking phase, enabling sarcomeres to reach, at MAJ, lengths similar to 1 g. This seems a useful mechanism for anchoring the tendon, enabling storage of elastic energy and its release in the subsequent PO phase., Skeletal muscle is a highly plastic tissue, responding both to level of use and amount of neural input. After cerebral palsy (CP) altered neural input can result in muscle contractures.We have studied the mechanics and biology of muscle from children with wrist flexion contractures secondary to CP. Dramatic architectural changes are observed in these children whereby sarcomere lengths are dramatically altered relative to patients without upper motor neuron lesions.1 This suggests dramatic alterations in the regulation of muscle growth in these children. Biomechanical studies of isolated single muscle cells reveal an increased passive modulus and decreased resting sarcomere length suggesting alterations in the cellular cytoskeleton.2,3 Gene expression profiling reveals a number of “conflicting” biological pathways in spastic muscle. Specifically, this muscle adapts by altering processes related to extracellular matrix production, fiber type determination, fiber hypertrophy and myogenesis.4,5 These transcriptional adaptations are not characteristic of muscle adaptations observed in Duchenne muscular dystrophy or limb immobilization. Superimposed upon the dramatic biological and structural adaptations is a loss in the number of satellite cells that are located throughout the muscle.6,7 Even the remaining satellite cells have epigenetic changes that can dramatically influence our ability to rehabilitate these muscles.8 Recently, we showed that several anti-cancer drugs are able to reverse these epigenetic changes, thus “rescuing” the satellite cells and promoting myogenesis. Finally, based on the highly unusual transcriptional profile and neural input that these contractures have, we show that blockage of the neuromuscular junction using neurotoxins can actually assist these muscles in growing. Taken together, these results support the notion that, while contracture formation is multifactorial and neural in origin, significant structural alterations in muscle also occur. An understanding of the specific changes that occur in the muscle and extracellular matrix may facilitate the development of new conservative or surgical therapies for this devastating problem., We have established velocity encoded MRI as a powerful non-invasive imaging technique to monitor skeletal muscle motion.1-3 One of the limitations of this technique is that it requires of the order of 70 consistent contractions cycles in order to image muscle motion. Recently, we implemented a ‘compressed sensing’ acquisition,4,5 that enables a reduction in acquisition time by factors of 4 enabling us to extend the scope of our dynamic studies: e.g., imaging multiple slices, different and higher %MVCs and ankle positions as well accommodate senior and frail subjects. The implementation of this ‘fast’ technique allowed us to study muscle kinematics in 3D (3 spatial and 3 velocity directions) and at three %MVCs in the calf muscle in young and old subjects. This latter study included diffusion tensor imaging in order to extract the fiber direction at each voxel. The principal strains and strain rates were rotated to the fiber basis at each voxel using the diffusion tensor information at each voxel. The fiber aligned strain and strain rates were not significantly different between the young and old age groups even though significant differences were found between the two age groups in the strain/ SR indices extracted in the principal basis. The Euler angles between the principal and fiber basis were calculated (represents the rotation of the strain tensor from the muscle fiber) and we compared it with the rotation angles derived from multiscale computational modeling. The multiscale modeling provides insight into the physiological mechanism responsible for the deviation of the strain from the fiber axis. Initial results indicate that the rotation of the principal strain from the fiber may arise from shear in the endomysium. The implications of these findings with respect to muscle force loss with age will be discussed., Structural and functional changes occur in skeletal muscle with age and with disuse resulting in a loss of muscle force1,2. Contributors to the loss of muscle force with age include decrease in muscle mass, structural changes in the extracellular matrix and increase in fat and fibrotic tissue. The extracellular matrix as well as fibrotic tissue contain a relatively large fraction of macromolecules. Magnetic Resonance Imaging (MRI) provides a way to map free protons in tissue while protons bound to macromolecules (e.g., collagen) are not visible on routine MRI due to their ultra-short T2 values. Magnetization transfer contrast (MTC) enables an indirect evaluation of the macromolecular content by selective saturation of bound protons. It is hypothesized that collagen is the primary macromolecular pool responsible for the MTC effect in skeletal muscle. Collagen content in muscle increases with aging and thus, a non-invasive marker of collagen in muscle tissue has the potential to identify aging differences. Further, inflammatory changes are also known to occur in aging muscle and T1 mapping may be able to track these changes. Here, we measured MTsat3 (a semi-quantitative index of MTC) and T1 to explore age related changes in calf muscle. We also explored the effects of different fat suppression methods on the observed T1 values to identify the effects of incidental magnetization transfer on the measured T1 values. A cohort of 10 healthy young subjects (24.5±3 years) and eight healthy senior subjects (65±8 years) were imaged in a 3T scanner. T1 derived from the fat saturated sequence was significantly lower compared to T1 derived from the other three sequences (no fat suppression, water excitation -fast and normal). The decreased T1 values from the fat saturated sequence is attributed to the magnetization transfer effects of the off-resonance fat saturation pulse. Significant differences were found between young and old subjects in T1 derived from the sequences with fat suppression; in all cases T1 increased with age in fat suppressed sequences4. Significant differences in MTsat were found between the young and old cohorts with MTsat decreasing with age. The increase in T1 values with age is hypothesized to reflect inflammatory changes in skeletal muscle and could potentially be an imaging biomarker. That T1 values from the fat unsuppressed sequence did not show age related changes is attributed to the opposing effects of increased fat infiltration (shorter T1) and increasing inflammation (longer T1), emphasizing the need for efficient fat suppression in skeletal muscle quantitative imaging. MTsat decreased significantly with age and this decrease cannot be explained by our hypothesis of increase in collagen with age. The decrease inMTsat may arise from decreases in muscle fibers (atrophy); the muscle fibers may themselves be the source of the macromolecular pool. In conclusion, fat suppressed T1 and MTsat values were significantly different with age in skeletal muscle though the direction of the change in MTsat cannot be explained due to a lack of knowledge about the macromolecular pool responsible for the MTC effect in skeletal muscle, The study of the interactions between the brain, spinal cord and muscles during volitional movements is key to understand the neural basis for motor control. While very important advances are being achieved regarding how brain's regions and neural populations change their activity to produce movements, we still know very little regarding how motor commands are transmitted through descending pathways to the muscles. When this problem is addressed in animal research, evoked potentials are used to study connectivity in corticospinal tracts. The limitation of this approach is that electrical stimulation of neurons provides biased information as the largest cells dominate the responses measured. Moreover, evoked potentials are not directly associated to behaviour. We have recently shown that having access to the neural code driving muscles in combination with brain signals can provide us with a unique framework to study the properties of corticomuscular transmission in terms of the expected populations of cells in the spinal cord that contribute to the neural information that reaches the muscles. This approach consists in decoding high-density EMG (HDEMG) signals into the activity of individual spinal motoneurons,1 and estimating the sources of synaptic inputs that the motoneurons receive with coherence techniques. Using this framework, we have been able to show that oscillatory activity in the brain successfully travels to the muscles using the most straightforward and fast routes available.2 This simple finding provides a strong rationale towards using simplified models of the corticospinal system to understand key questions about motor control and also regarding the mechanisms of actions of different neuromodulation techniques used in the field of neural rehabilitation. The talk will focus on the use of HDEMG for assessing the output of the spinal cord and for identifying neural connectivity between the brain and the spinal cord. These methods will be discussed in relation to their applications in neurorehabilitation technologies., In recent years, the introduction of the high-density electromyography technique (HD-emg) has created new perspectives for the in vivo study of individual motor units and motor control.1 The technique which makes use of matrices containing multiple electrodes presents numerous advantages over traditional surface or needle electromyography. First it is not invasive, second it allows the study of the MU in vivo even during contractions of moderate/high intensity (50-80% of the maximum voluntary contraction). The use of multiple electrodes matrices, combined with the possibility of recording over a broader range of contraction intensities, consents the assessment of a higher number of MUs than with the needle technique. Moreover, recent studies have shown that HD-emg allows not only to identify and characterize a specific MU but to follow it over time even after several days (weeks).2 The analysis of the MU activity in vivo, therefore, opens a window directly on the neural control of the drive directed to the muscles. Important parameters such as MU firing rate, recruitment threshold and conduction velocity can be directly assessed using the HD-emg. In particular, this technique could be applied to follow the effects of a treatment, deconditoning (disuse; bed rest studies), athletic conditioning or protein supplementation in both healthy and diseasead individuals. With aging for instance, there is denervation with loss of MUs and muscle fibers, which is partially compensated by re-innervation phenomena that can manifest themselves in the formation of large MU where previously denervated muscle fibers (usually fast twitch) are re-innervated by slow MU.3 HD-emg combined with dynamometry and posturography would allow to study the consequences of these modifications in vivo, for example during motor control tests (accuracy in maintaining muscle strength) and postural balance assessment. Defects in signal transmission between nerve endings and the muscle membrane (NMJ) are present not only in aging but also in various other pathophysiological conditions including amyotrophic lateral sclerosis (ALS;4). Recently the HD-emg has been used to characterize the daytime variability of fasciculation firing in people suffering from ALS.5 It is obvious that this technique opens many research opportunities and therefore in my presentation., There is a large variability in the maximal rate of force development across human individuals. It might be intuitively assumed - and it has been done for the past decades - that the muscle, with its intrinsic properties, would be the main determinant of the maximal rate of force development. Although this speculation might seem intuitively correct since the muscle represents the mechanical amplifier of the neural commands, there is evidence suggesting that the variability in rate of force development is mainly attributed to neural factors.1–3 Computational motor unit models and in-vivo estimates of motoneuron behavior during fast feedforward movements are indicating that it is possible to predict the rate of force development of a human individual from the neural input received by the muscle before the generation of any observable force. These studies report strong associations between rate of force development and motor unit recruitment patterns. We will discuss novel results obtained with the decomposition of high-density EMG signals during fast feedforward movements, including results obtained by measuring the spike frequency adaptation, principal component analysis applied during fast feedforward movements and also motoneuron behavior during fast kicking actions in human neonates.4, The talk will focus on the neuromechanical evaluation of human movement using high-density surface EMG (HDsEMG) technologies. After a brief discussion on the limitations of the use of surface EMG to describe neural control of movement, recent results on the decomposition of HDsEMG signals during dynamic contractions at different velocities will be presented.1 Techniques for tracking motor units across movements performed at increasing velocities will be described.2) As previously demonstrated in isometric contractions,3,4 the identification of the same motor units active at different speeds will show the advance in the use of HD-sEMG to investigate the neural drive to muscles in dynamic contractions. The results suggest that motor unit rate coding rather than recruitment is responsible for the control of muscle shortening and lengthening contractions at increasing velocities against a constant load. Additionally, the combination of these motor unit tracking methods with ultrasound transparent HDsEMG arrays,5 will show the real potential of closing the current gap in the study of the neuromechanics of human movement., In motor science a specific neuromuscular function seemed to be neglected so far. The Adaptive Force (AF) reflects the capacity of adapting adequately to external forces with the intention to maintain a desired position or movement. Thereby, the external forces can be constant or varying in size. In distinction to conventional pushing isometric activity, a holding isometric action (as part of the AF) requires a more complex motor control, because it has to adapt adequately to the varying impact. To stabilize a given limb position, during a continuous external force increase an ongoing forward control mechanism is necessary in order to implement anticipatory adjustments. It is hypothesized that in this process the ability of the cerebellum to predict connected motoric events in cooperation with the inferior olivary nucleus (ION) is utilized.1,2 Possibly because of its greater complexity the holding isometric function appears to be an independent neuromuscular capability. This is, inter alia, indicated by the finding that a submaximal holding isometric action (80% of MVIC) can only be maintained over a substantial and significant shorter time compared with the same intensity by the same muscle in a pushing manner of isometric action.3 Moreover, during measurements of AF (two different time points) the maximum holding isometric force (AFisomax) revealed substantial and significant lower amounts relatively to the MVIC (maximum pushing isometric force) of the same muscles (76.88 and 72.92%; p=.001 and .002, respectively). Consequently, AFisomax can be discriminated from other maximal forces and should be discussed as an independent kind of muscle function. So far, there was no suitable device to detect AF. For this purpose, novel technological solutions were invented and developed. An innovative device utilizing a pneumatic principle meets the needed functionality for objective measuring of AF. During one single measurement AFisomax but also AFmax can be detected. Regarding reliability of all forces between two points of time, the SEM of all torques were 1.29–5.68Nm and the ICCs(3.1) 0.945–0.996. AFisomax and AFmax correlated highly (r≥0.85). In addition, for manual examination under clinical conditions a wireless handheld device was developed. The accuracy of the device was proofed in mechanical reliability measurements without subject (, Heat-stroke (HS) is a life-threatening response to heat or physical exertion characterized by an abnormal increase in body temperature (>40°C) that causes dysfunction of organs, central nervous system and may end in death.1 Both exertional and environmental heat-stroke (EHS), often triggered by a hot and humid environment or by strenuous exercise performed in challenging conditions, are caused by excessive heat production in muscle, which in turn is the result of oxidative stress and abnormal Ca2+ leak from the sarcoplasmic reticulum (SR).2 As high fat diet is known to increase oxidative stress,3 the objective of the present study was to investigate the effects of high-fat diet in the heat-stroke susceptibility of C57bl/6 wild type (WT) mice of 4 months of age (adult). Our results show that, in comparison with mice fed with a control diet, mice after 3 months of high-fat diet dispaly: a) increased heat generation and energy expenditure (assessed by indirect calorimetry) during heat stress; b) elevated oxidative stress in both EDL and Soleus muscles; and c) enhanced sensitivity to caffeine and temperature of isolated EDL and Soleus muscles during in vitro contracture test (IVCT, the gold standard procedure to test in-vitro EHS susceptibility). Our data suggest that high-fat diet predispose mice to EHS, possibly as a result of increased oxidative stress and excessive release of Ca2+ from SR. This study may have important implications for guidelines regarding food habits during periods of intense environmental heat., Parkinson´s disease (PD) is mostly diagnosed by clinical examinations of the cardinal symptoms rigor, bradycardia and tremor. An objective diagnostic tool in clinical routine does currently not exist.1 The motor symptoms are mainly explained by a loss of more than 50% of the dopaminergic cells in the substantia nigra.1–3 The present study is based on the hypothesis that neuromuscular parameters might show altered patterns already before that substantial degree of cell loss. Studies examining PD patients without tremor scarcely exist. The aim of the present study was to investigate the oscillatory behavior of the mechanical muscle oscillations in PD patients (PD) without tremor compared to healthy controls (Con). The mechanical muscle oscillations (MMG), force and acceleration (ACC) of 18 PD patients without tremor (in medication off state) and of 20 healthy controls (Con) were measured during a specific bilateral isometric motor task.4 The MMGs of the biceps brachii, the brachioradialis and of the pectoralis major muscles were recorded using a piezo-based measurement system. Five trials at 60% of the maximal voluntary isometric contraction (MVIC) were performed. The frequency, a specific power frequency ratio in low frequency ranges of 3 to 12 Hz as well as the variation and the slope of amplitude maxima were evaluated and compared between PD and Con. PD patients showed a significantly lower power frequency ratio and amplitude variation of ACC and MMGs compared to Con (power frequency ratio: p ≤ 0.001 – 0.004; effect size r = 0.441 – 0.579; amplitude variation: p ≤ 0.001, r = 0.37 – 0.67). The 95% confidence intervals were clearly disjoint. The ACC showed, furthermore, a significant difference concerning the mean frequency (p = 0.009, r = 0.43). No significant differences were present concerning the slope of amplitude maxima. The power frequency ratio as well as the amplitude variation as parameters of the mechanical motor output showed clear differences between PD patients without tremor and healthy controls during this novel bilateral assessment. The bilateral setting seems to enhance the effects, which were less clear during a unilateral motor task.5 If those results will be supported by further studies an innovative biomarker for PD patients might be developed. For this propose it has to be investigated, if the results are reproducible and specific for PD. It is supposed that those mechanical muscle oscillations reflect neurodegenerative changes, which are probably especially visible during the bilateral motor task., A high intramuscular pressure during submaximal isometric muscle actions might restrict the blood flow.1-5 Thus, the oxygenation and the relative hemoglobin amount (rHb), which indicates the blood filling of venous capillaries, should be altered. Recently, two behavioral types were described during a fatiguing holding isometric muscle action (HIMA).6 Type I: rHb decreases and levels off into a steady state, nearly parallel to the capillary-venous oxygen saturation (SvO2). Type II: rHb decreases until a reversal point (RP) and increases before leveling off into a steady state, whereby the SvO2 decreases further on and its steady state sets in at a lower level compared to type I. The aim of the present study was to examine an explanation of these two patterns. 12 subjects (29.75 ± 11.14 years) performed a fatiguing HIMA with 60% of the maximal voluntary isometric contraction in a 90° elbow flexion on each arm. Six subjects additionally pulled on an immovable resistance (fatiguing pulling isometric muscle action, PIMA) with the same intensity once per arm. The rHb and SvO2 were recorded by the spectrophotometric O2C-device. In type II behaviors (n = 26), the RP was found at an average SvO2-level of 58.75 ± 2.14%. The SvO2 in type I behaviors (n = 10) never reached that specific value. The level of deoxygenation could explain the two patterns. It is suggested a threshold ~59% triggers the increase of rHb. A possible approach regarding the compatibility of an rHb-increase with a theoretical blood flow restriction is given., Mitochondrial dysfunction and iron (Fe) dyshomeostasis have been identified among the mechanisms contributing to muscle aging possibly via a detrimental mitochondrial-iron feed-forward loop. This loop might be partly reflected by an altered expression of mitoferrin and frataxin, larger labile iron pool and greater mitochondrial DNA damage in skeletal muscle of older adults. We quantified the labile Fe pool, Fe isotopes, and the expression of mitochondrial Fe handling proteins in muscle biopsies obtained from young and older adults. The expression of key proteins of mitochondrial quality control (MQC) and the abundance of the mitochondrial DNA common deletion (mtDNA4977) were also assessed. An inverse association was found between total Fe and Fe isotope ratio, indicating an increase in labile Fe abundance in cells with greater Fe content. The highest levels of labile Fe were detected in older participants with a Short Physical Performance Battery (SPPB) score ≤7 (low-functioning, LF). Protein levels of mitoferrin and frataxin were, respectively, higher and lower in the LF group relative to young participants and older adults with SPPB scores ≥11 (high-functioning, HF). The mtDNA4977 relative abundance was greater in older than in younger participants regardless of SPPB category. Higher protein levels of Pink1 were detected in LF older adults compared to young and HF older adults. Finally, the ratio between lipidated and non-lipidated LC3B, as well as p62 protein expression, was lower in older participants regardless of SPPB scores. Our findings indicate that cellular and mitochondrial Fe homeostasis is perturbed in the aged muscle (especially in LF older adults) as reflected by altered levels of mitoferrin and frataxin, which together with MQC derangements might contribute to loss of mtDNA stability., Recent work from our lab identified that the transcription factor Forkhead boxP1 (FoxP1) is significantly increased in the skeletal muscle of tumor bearing hosts exhibiting cachexia1,2. FoxP1 is a negative regulator of gene transcription, which has strong relevance to cancer cachexia given that gene repression is the predominant direction of change of differentially expressed genes in the skeletal muscle of cachectic cancer patients3. This talk will focus on our recently published, and unpublished, findings which demonstrate that myofiber-specific FoxP1 upregulation is sufficient to induce several features of cachexia, including loss of body weight, muscle atrophy and muscle fiber atrophy, muscle damage and expansion of the extracellular matrix, muscle weakness, and identify the gene networks associated with these outcomes; and that myofiber-specific FoxP1 is required for the normal atrophy phenotype that occurs in tumor bearing hosts., Cachexia is a wasting syndrome that occurs in patients with many illnesses and is characterized by pronounced loss of skeletal muscle and adipose tissue. In cancer patients, cachexia associates with increased morbidity and mortality and decreased treatment tolerance. Although advances have been made in understanding mechanisms of tumor-induced muscle loss, we lack an approved pharmacological intervention in both the United States and Europe. While animal models of cancer cachexia have suggested that activation of the ubiquitin proteasome system is crucial to muscle wasting, there is less evidence of significant increases in proteolysis in humans with cancer cachexia.1 Dysfunctional muscle regeneration has also been identified as a cause ofmuscle wasting in people andanimalswith cancer.2-4Cancer appears todamageskeletal muscle, leading to activation of satellite cells.However, these muscle progenitor cells appear to beunable tofuseintoand repair existing skeletal musclefibers, leading to muscle atrophy.3A component of thismuscle damage appears to be disruption ofthe existingextracellularmatrixsurroundingskeletalmuscle fibers.We propose that the tumor-induced disorganization ofthe extracellularmatrix creates an environment that is notsuitable for functionalmuscle regeneration, therebycontributing tomuscle wasting in cancer., In concentric contractions,muscles shorten and performpositivework leadingto acceleration or to gain in potential energy. During eccentric contractions, activatedmusclesundergo lengthening and perform negativework i.e. they are used to decelerate.The physiologicalproperties between concentric and eccentric contractionsdiffermarkedly.At similar angular velocities, the torque thatmuscles produce during eccentric contractions isseveral timeshigher than during concentric contractions.This is because the developed tensionis remainingconstantwith increasing (negative) angularvelocity.Muscle tissue thus suffersmuch higher stress duringeccentric than during concentric contractions, eventuallyleading tomuscle damage and delayed onsetmuscle soreness (DOMS;).1Themetabolic energy requirementsare typically some four fold lower for performing a similar amount of negative (eccentric) than positive(concentric) work.2Additionally, thesame authors alsoshowedthat theintegrated EMG activity for producingnegative torque is only half that necessary to produce asimilar amount of positive torque. Thismeans that it ismore difficult to control eccentric contractions. We have used moderate load (50-350 Watt)eccentric exercise ona recumbent eccentric ergometer to increase strength andmuscle mass insubjectswith coronary artery disease.3By carefully ramping up the training loads fromverylowloads, delayed muscle soreness and muscle damage wascircumvented. Wenow use controlled moderate loadeccentric exercise mainlyin a numberofrehabilitativesettings of the lower extremity. These comprise generaldeconditioning in particular in old age sarcopenia,reconditioning after repair of the anterior cruciate ligament aswell as rehabilitation after total kneearthroplasty. Our findings are in linewith studies forthese conditions that show better effects of usingprotocols including eccentric loads.4,5Using an eccentric recumbent ergometer allowsfor precise control of thetraining conditions. Patientswork in a closed musclechain at angular velocities similar to those experiencedduring normal cycling orwalking. We start eccentricconditioningwith 2-3 sessionsper week.Each sessionconsists of 4 bouts of 5 minutes of eccentric exerciseseparated by 2minutes of rest. Initial loads are typically25 Wattwitha cadence of40RPM.We thenincrease load up to 100 Watts and cadence up to 60 RPM withoutprovoking muscle soreness. We can preventdeconditioningwith 1training session perweek., Exercise training is used as an anti-cachexia treatment in clinical trials, due to its capacity to regulate both the metabolic disturbances and the severe muscle wasting which characterize cachexia1,2. Most of the molecular mechanisms underlying exercise beneficial effects are still unknown. Serum Response Factor (SRF) is a transcription factor of pivotal importance for muscle homeostasis, acting as a mechanosensor depending on muscle contraction3. We show that cancer patients have reduced SRF activity associated to cachexia, but exercise increases SRF expression even in this condition, likely favoring the rescue of SRF transcriptional activity. To address this issue, we exploited a pre-clinical model of cancer cachexia (C26-bearing mice), with a subset of the mice exercised by wheel running. We found that exercise rescues SRF expression in a dose-dependent manner, while also counteracting cachexia. Furthermore, exercise has no longer effect in SRF-KO mice showing that SRF is necessary for exercise effectiveness. SRF transcriptional activity promotes the expression of several target genes, including pro-myogenic factors as well as IL-6 and IL-4. The latter is sufficient to counteract the negative effects of tumor-derived factors on muscle cells4. We also show that exercise promotes the downregulation of Pax7 and, thus, the incorporation of nuclei in muscle fibers. Finally, we show in vitro that the purely mechanical stimulation of myotubes mimics exercise (including SRF activation, IL-4 secretion and myoblast incorporation into myotubes) being sufficient to counteract the negative effects of tumor-derived factors. Our findings highlight a model whereby the mechanical stimulation of the musculature, through the essential activation of the SRF-dependent pathway, has paracrine/endocrine effects, consisting of IL-6 and IL-4 secretion by the muscle itself. These two cytokines have multiple, positive effects on both the muscle fibers (or myotubes, in vitro) and the activated myoblasts: indeed, protein degradation is diminished in the muscle fibers, whilst myoblast are recruited to the muscle fibers contributing to maintain muscle homeostasis in the presence of cachectic factors. We propose the importance of the mechanical stimulation, induced by exercise or other means, for the regulation of muscle homeostasis and we propose that IL-4 treatment may mimic the beneficial effects of exercise., Muscle mass and function loss are key components of both cancer cachexia and age-related sarcopenia. Other features such as changes in food intake, energy expenditure, inflammation and fat mass and metabolism are differentially modulated in these syndromes. In fact, the co-occurrence of obesity in age-related sarcopenia worsens its prognosis; whereas, higher body weight is known to have a protective effect in cancer-related cachexia. Ghrelin is a potent growth hormone (GH) secretagogue known to increase muscle and fat by increasing food intake and possibly by decreasing inflammation and energy expenditure.1 Hence, activation of the ghrelin receptor GHSR1a by ghrelin or ghrelin receptor agonists has been proposed as a potential therapeutic target for cancer-related cachexia,2-3 and age-related sarcopenia.4 This talk will focus on the differential effects and molecular mechanisms of action of ghrelin in rodent models of sarcopenic obesity and tumor-induced cachexia, and the potential therapeutic implications of these recent research findings., Chemotherapy diminishes strength and promotes muscular fatigue in cancer patients. Musculoskeletal complications of cancer chemotherapy include lower-extremity weakness, dyspnea, loss of functional performance and muscle wasting. Growing evidence supports the notion that participation in regular bouts of physical activity improves muscular strength, reduces fatigue and enhances quality of life in cancer survivors. However, while exercise training in patients receiving chemotherapy may mitigate the negative consequences of cancer treatment on physical function, debate remains regarding the optimal exercise prescription for patients and complications such as age, co-morbidities and treatment related side effects limit its use. Alternatively, exercise is an effective tool that can be used to develop therapeutic countermeasures designed to reproduce the beneficial effects of increased muscular activity. In a preclinical model of anthracycline myotoxicity, we have shown that exercise training in combination with doxorubicin reduces chemotherapy-associated weakness and atrophy in both respiratory and hind limb muscles. Our data suggests that exercise training can improve mitochondrial iron homeostasis, resulting in a reduction in mitochondrial reactive oxygen species production and preservation of mitochondrial respiratory capacity when performed prior to doxorubicin treatment. Further, this study identifies novel exercise-induced adaptations to skeletal muscle protein transporters with the potential to alter doxorubicin muscular localization and iron homeostasis., Mitochondria are implicated in atrophy of aging skeletal muscle, yet the link between specific changes in mitochondrial function and muscle atrophy has not been established. Prior studies have identified key roles for mitochondrial reactive oxygen species (ROS) and activation of caspase 3 in driving atrogene expression and proteolytic cleavage of actomyosin, respectively. Notably, mitochondrial permeability transition (MPT), an event which involves the formation of a non-specific pore across the mitochondrial inner membrane, results in a large burst of ROS and release of a variety of mitochondrial proteins, including cytochrome c which activates caspase 3. Despite this, the role of MPT as an upstream event driving mitochondrial ROS- and caspase 3-mediated atrophy signaling has not been considered. To address this gap, in a muscle cell culture system, induction of MPT using doxorubicin (Dox) was coincident with AIF translocation to myotube nuclei and a large burst in ROS. Furthermore, Dox-induced MPT caused muscle atrophy that was blocked using inhibitors of MPT (cyclosporin A, bonkrekic acid, isoxazole 63), inhibiting mitochondrial ROS (using MitoTempo), or knocking down caspase 3 (using shRNA). Furthermore, maintaining single mouse flexor digitorum brevis (FDB) muscle fibers in culture caused muscle fiber atrophy that was blocked by the MPT inhibition. Together, these results identify MPT as a novel mechanism of skeletal muscle atrophy that depends upon both mitochondrial ROS and caspase 3., Cancer and its treatment can profoundly affect skeletal muscle, causing atrophy, impaired contractility and mitochondrial dysfunction. These maladaptations are best characterized in late-stage patients, where tumor- and treatment-related factors likely contribute to muscle deficits. Muscle atrophy and dysfunction, however, are observed in patients with early-stage disease, who comprise a large proportion of the cancer survivor population and will bear the burdens of muscle atrophy and dysfunction throughout their disease-free lifetime. Cancer treatments represent a likely mediator of skeletal muscle maladaptations in early-stage patients and considerable evidence has accumulated from pre-clinical work showing how a variety of chemotherapeutics promote muscle atrophy and dysfunction. At present, no therapeutics that specifically target skeletal muscle maladaptations with cancer and its treatment have been proven effective. Physical exercise, however, has been shown to mitigate numerous symptoms and side effects of cancer and its treatment and has been proven safe. This presentation will review skeletal muscle phenotypes in human cancer patients receiving chemotherapy with and without tumor burden, potential mechanisms underlying the effects of chemotherapeutics on skeletal muscle and the potential protective effects of exercise., A steady decline in the variety of the interconnected physiological patterns occurs throughout ageing. Network science approaches in ageing research represent a recent advancement of the field, with interesting perspectives both for predict adverse outcomes and evaluate interventions. To provide a piece of evidence, we analyzed a dataset obtained from the project named “A.M.A. la terza età” (2007-2019), consisting herein of 24 participants (11 F and 13 M, 71.2 ± 4.2 years) who performed endurance training (ET) and 45 (15 F and 32 M, 69.6 ± 4.2 years) who were trained with neuromuscular electrical stimulation (NMES). Four networks were constructed resulting from data the two protocols, before and after a 12-week training period. The variables as nodes consisted of isometric strength of quadriceps, handgrip strength, five times sit-to-stand test, timed up-and-go test, body mass index, and estimated fat mass. Edges consisted of partial correlation coefficients. Graphical lasso regularization technique and extended Bayesian information criterion (γ=0.25) were implemented. The stability of edge-weights and the bootstrapped significant difference of centrality measures were evaluated; density of edges, Jaccard Similarity Index (JSI), and weighted JSI were computed to compare the networks. Among the results, in both protocols a reduction in network density after the training period occurred. The ET group underwent a more marked alteration of physiological interconnections after the training period than NMES group. We suggest strength may be considered the most accurate centrality measure in case of low sample size, and comparisons of weighted networks should be conducted by evaluating different metrics, i.e., local, global, weight-related, sign-related. The disentanglement of motor performances and metabolic indexes should represent a threat to be combated. A cross-sectional baseline evaluation of networked parameters may add novel insights for defining group homogeneity. The effectiveness of physical exercise may be evaluated in terms of local and global properties of physiological networks, ranking the variables in terms of their centrality, computing emergent properties of graphs, and applying adequate network comparison methods., It is well known that chronic kidney disease (CKD) leads to a progressive and debilitating myopathy characterized by muscle weakness, fatigue, and atrophy/wasting that negatively impact functional independence and quality of life. Over the past several decades, numerous catabolic pathways have been identified as being upregulated in CKD contributing to the loss of muscle mass and function. Given the diversity of these pathways, a major gap in knowledge stems from our limited understanding of the systemic events that stimulate these catabolic pathways in CKD, and thus there are no readily available treatments for successfully preventing myopathy in CKD. To this end, impaired renal function results in elevation of many uremic toxins that negatively impact muscle. Several established uremic toxins are derived from tryptophan catabolism via kynurenine and indole pathways. The most widely studied of the tryptophan metabolites, indoxyl sulfate and kynurenines, causes muscle atrophy and mitochondrial dysfunction in mice with normal kidney function, although the underlying mechanisms are unknown. This presentation will focus on emerging data demonstrating molecular pathways that link uremic toxins to skeletal muscle pathology, including activation of proteolytic pathways and mitochondrial dysfunction., Sarcopenia, the age-related loss of muscle mass and strength, affects >50% of the population aged 75 yr and over and is a main cause of impaired physical performance and reduced mobility.1 Amongst the several factors contributing to sarcopenia neurodegenerative changes are regarded as primary drivers of this condition,2 and responsible for α-motoneurons and neuromuscular junction (NMJ) degeneration, for muscle fibre denervation,2 which, also fuelled by mitochondrial dysfunction and oxidative damage,3 lead to loss of motor units and muscle weakness. One of the major functional characteristics of sarcopenia is the disproportionate decrease of muscle strength, known as loss of ‘muscle quality’: at the age of 80 yrs, the loss of muscle strength is about 4-fold greater than that of muscle size.4 This intrinsic muscle weakness, also known as a deterioration in ‘muscle quality’ has traditionally been attributed to a decrease in fibre specific tension, reduced excitation-contraction coupling, reduced neural drive, accumulation of non-contractile tissue,2 and changes in muscle architecture and tendon properties.5 However, new evidence suggests that this disproportionate loss of force may also arises from changes in the extracellular matrix (ECM) and of associated proteins, leading to a decrease in lateral force transmission,6 which in young muscle normally contributes to >50% of muscle force output,7 and more that 3-fold of the force measured in fibre bundles as opposed to the same number of fibres deprived of ECM.8 Indeed, in rat muscle, lateral force transmission is markedly reduced in old animals (-20%) and even more in very old ones (-44%).9 This suggests that muscle weakness associated with sarcopenia may not only originate from muscular changes but also from alterations affecting the ECM leading to a decrease in lateral force transmission. Recent work suggests that estimations of lateral force transmission in humans may be obtained from shear strain measured in vivo from MRI strain tensor during graded muscle contractions.10 This experimental approach seems particularly promising since fibre shear during contraction is assumed to be related to lateral force transmission.11, The Transforming Growth Factor-β (TGFβ) signaling network is an important regulator of skeletal muscle mass and function and, thus, is an attractive therapeutic target for muscle disease and sarcopenia. We have observed that follistatin-based interventions (which modulate TGF-β network activity) can promote muscle hypertrophy that ameliorates aging-associated muscle wasting. However, the muscles of old sarcopenic mice demonstrate reduced response to follistatin compared with the muscles of young-adult mice. Using quantitative transcriptomic and proteomic methods to examine the mechanisms by which the TGFβ network regulates muscle adaptation, we identified that the E3 ubiquitin ligase, ankyrin repeat and SOCS box protein 2 (ASB2) is reduced in young-adult muscles in response to follistatin treatment, but not in similarly-treated old sarcopenic muscles. Preventing repression of ASB2 in young-adult muscles diminished follistatin-induced muscle hypertrophy. Furthermore, ASB2 overexpression in mouse muscles caused muscle atrophy and impairment of force-producing capacity, while ASB2 knockdown induced muscle hypertrophy, thereby demonstrating that ASB2 is a TGFβ network-responsive negative regulator of muscle mass. Using mass spectrometry to investigate ASB2-mediated changes to the muscle proteome, we found that ASB2-induced muscle atrophy and dysfunction were associated with the downregulation of mitochondrial and contractile protein abundance, and the upregulation of proteins involved in proteasome-mediated proteolysis, protein synthesis, and the cytoskeleton/sarcomere. Increased ASB2 also resulted in altered proteome ubiquitination, however, there was no simple relationship between changes in ubiquitination status and protein abundance. Using label-free proteomics to identify proteins interacting with wild-type ASB2 and a mutant ASB2 lacking the C-terminal SOCS box domain (dSOCS), we found that ASB2 interacted with a range of cytoskeletal and nuclear proteins. Combined, the findings provide insight into the transcription and translation events governing follistatin-mediated skeletal muscle adaptation, identify ASB2 as a regulator of muscle mass implicated in the potential adaptive dysfunction of old muscles, and highlight the complex proteome and ubiquitinome changes that occur during ASB2-mediated muscle atrophy and dysfunction., Store-operated Ca2+ entry (SOCE) is a ubiquitous cellular Ca2+ influx mechanism, first described in non-excitable cells, that is triggered by depletion of intracellular Ca2+ stores (endoplasmic reticulum, ER). A major breakthrough in the field was the identification of the two essential molecular players in SOCE: STIM1, a Ca2+ sensor in the ER, and Orai1, a Ca2+ permeable channel in the plasma membrane. SOCE is also well-documented in skeletal muscle where it limits muscle fatigue during repetitive stimulation. Also in muscle SOCE is mediated by interactions between STIM1 and Orai1 channels.1 However, the precise subcellular location of STIM1-Orai1 complexes in skeletal muscle is still debated. We discovered that exercise in mice drives formation of new junctions between stacks of sarcoplasmic reticulum (SR) cisternae and transverse-tubules (TTs) containing respectively STIM1 and Orai1. We proposed that these previously unidentified SR-TT junctions function as Ca2+ Entry Units (CEUs), providing a preferential pathway for rapid reuptake of Ca2+ into the SR during repetitive muscle activity.2 We also discovered that CEUs are dynamic, as they increase in number and size during exercise, while reduce following recovery.3 For many years the role of extracellular Ca2+ for skeletal muscle function was ignored. Our recent work represents a pioneer study that identified exercise-driven dynamic formation of new intracellular structures, a mechanism potentially quite important for the delay of muscle fatigue. As altered SOCE activity contributes to muscle dysfunction in ageing and various myopathies, our findings may also have implications for the understanding of mechanisms involved in muscular dysfunction., Stereology in a narrow sense is defined as a body of methods that allow for extraction of quantitative 3-dimensional information from 2-dimensional planar sections of tissue or materials. Stereology uses principles of statistics and of stochastic geometry and, if properly executed, provides unbiased quantitative data with regard to volume, length, surface, number and distribution of structures of interest. Modern stereological techniques are “design-based” and work without any assumptions about the shape, size, orientation or distribution of the objects under scrutiny. The estimated quantities of interest are thus free of bias. Skeletal muscle poses a significant challenge to stereological analysis because of the extremely anisotropic organization of the tissue elements. Muscle fibers are essentially unidirectional arranged cylinders with all tissue elements surrounding muscle fibers or laying within muscle fibers similarly oriented to a varying degree with regard to the longitudinal axis of the muscle fibers. In order to obtain an unbiased estimate of any structural quantity of interest it is essential that muscle tissue be sectioned with an IUR (independent uniform random) procedure, which guarantees that sections for analysis are random in all three planes.1 This approach is appropriate and efficient for estimating volumes and surfaces such as mitochondrial volumes and membrane surfaces. However, for measuring aspects of capillarity the IUR approach has serious drawbacks. Due to capillary anisotropy parameter estimates may have unfeasibly large coefficients of variation. It may therefore be of advantage to use a 3-dimensional approach such as microangioCT of muscle tissue volumes.2 To estimate numbers of “particles” in muscle tissue such as cell nuclei or satellite cells is a particular challenge. It is necessary to adhere to rigorous counting methods using appropriate counting frames, and to do that on two consecutive sections of a known distance to obtain an unbiased estimate of the particle of interest.3, Exertional/Environmental Heat Strokes (EHSs) are hyperthermic crises triggered by strenuous physical exercise and/or exposure to environmental heat, which are caused by an altered intracellular Ca2+ homeostasis in muscle.1,2We recently demonstrated that a single bout of exercise on treadmill leads to formation of Calcium Entry Units (CEUs), intracellular junctions that promote interaction between STIM1 and Orai1, the two proteins that mediate Store-Operated Ca2+ Entry (SOCE). SOCE is a mechanism that is activated during muscle fatigue and that allows recovery of extracellular Ca2+ during prolonged activity.3,4 The hypothesis underlying this project is that assembly of CEUs during prolonged exercise may predispose to Exertional Heat Stroke (EHS), when exercise is performed in challenging environmental conditions. To test this hypothesis, we used different groups of mice: pre-exercised wild type (WT) mice, in which assembly of CEUs was induced by an incremental running protocol (as in ref. 3) and two genetically modified mice which are known to be hypersensitive to heat (RyR1- G2435R and CASQ1-null mice).The animals were subjected to an exertional stress (ES) protocol consisting of an incremental 45min treadmill run at 34°C and 40% humidity (for CASQ1-null mice the protocol was reduced to 30 min to avoid lethality). In all 3 groups of mice we tested the internal temperature reached at the end of the ES protocol was higher (RyR1-G2435R: 39.1°C ± 0.85; CASQ1-null: 38.4°C ± 0.07; WT pre-exercised: 38.8°C ± 0.48) compared to WT control that were not pre-exercised (37.9°C ± 0.17). We then analyzed muscles by electron microscopy (EM) and verified that: a) the number/area of CEUs is higher in pre-exercised WT mice vs. control (Control: 2,0 ± 0,6; Exercised 1h: 9,7 ± 1,0); b) in RyR1-G2435R and CASQ1-null mice CEUs are constitutively present. The data collected indicates that presence of CEUs correlates with a greater increase in body temperature and could in principle predispose to EHS when exercise is performed in challenging environmental conditions., Limb girdle muscular dystrophy D2 (previously LGMD1F) is a rare neuromuscular disease due to a heterozygous mutation in the TNPO3 gene coding for Transportin 3 (TNPO3). TNPO3 is an importin that shuttles, from the cytoplasm to the nucleus, the serine/arginine-rich proteins (SR-proteins) among which the splicing factor SRSF1. The SR family includes proteins involved in mRNA metabolism and essential splicing factors that, regulating alternative splicing, contribute to post transcriptional gene regulation. In this way they affect the proteomic diversity in muscle, contributing to the control of satellite cell fate during muscle differentiation and helping the maintenance of healthy muscle. Since the strict interaction between SRSF1 and TNPO3, a mutation in TNPO3 could downstream dysregulate SRSF1 function, affecting splicing and causing abnormalities in fibers that contribute to LGMD D2 pathogenesis. We analyzed if myogenic differentiation could be modulated by interactions between SRSF1 and TNPO3. The different steps of myogenesis have been monitored in C2C12 cells and TNPO3 expression have been investigated by confocal and electron microscopy, showing that it increases in nuclei of differentiated myotubes. The interactions of TNPO3 and SRSF1 have been quantitatively evaluated by a structured illumination microscope: SRSF1 remains localized in the nucleus, while TNPO3 decreases in the cytoplasm appearing strongly clustered in the nucleus of myotubes, suggesting that it could act in the proteomic network necessary during myogenesis. These data stress the role of TNPO3 as a carrier of SRSF1 in crucial steps of myogenic differentiation and could help to clarify the pathogenic mechanisms of LGMD D2., Skeletal muscle differentiation is a highly dynamic process and correct nuclear positioning within myofibers is essential for proper muscle regeneration and function.1 Hence, the mobility of myoblasts and of their nuclei appears to be a critical parameter to evaluate myofiber formation, but this highly dynamical process cannot be analyzed by the standard procedure that relies on fixed cells analyzed by immunofluorescence. We developed a method to record myoblast differentiation and myotube formation by time-lapse microscopy and we used a software to perform quantitative analyses from the automatic tracking of myoblast nuclei.2 Our current objective is to exploit this method to compare nuclear and cell dynamics of myoblasts, isolated from wild type and dystrophic mice, during differentiation. To extract information on nuclei/cell movements data from the live cell imaging experiments, we are performing measurement of multiple parameters for each tracked nucleus (e.g. velocity, trajectory length). Our aim is to give new insights into the dynamics of myofibers formation and into the pathogenesis of muscular dystrophies., It is widely speculated that age related muscle atrophy is a result of failure to maintain of muscle in the face of loss by damage during day-to-day interaction with the environment. This failure is, in turn, associated with a loss of regenerative capacity by the satellite cell. To examine this idea, we used a previously established model in which fragments of human muscle regenerate when grafted into immunodeficient mouse hosts.1 Grafts were obtained during autopsy of cadavers of individuals of a range of ages at death. We found strong regeneration of muscle fragments across the entire range of ages up to 91, suggesting that there was little evidence of a decline of regenerative vigor with age., After a complete spinal cord injury that damage soma and axons of the lower motor neuron (LMN), the permanent denervated human muscle fibers lose completely the myofibrillar apparatus and the coil distribution of myonuclei that are relocated in groups (nuclear clumps) in the center of severely atrophic muscle fibers.1 Up to two years of LMN denervation the muscle fibers with nuclear clumps are very seldom, but then severely atrophic muscle fibers are frequent in muscle biopsies harvested three to six years after permanent denervation. Indeed, the percentage increased to 27 ± 9% (p< 0.001), and then abruptly decreased from the 6th year onward, when fibrosis takes over to neurogenic muscle atrophy. Immunohistochemical analyses shown that nuclear misplacements occurred in both fast and slow muscle fibers, while seldom tough continuous events of myofibers regeneration occurred presenting central nuclei and embryonic myosin heavy chain positive staining. Those events were present at lower level in muscle biopsies harvested after two years of Functional Electrical Stimulation.5,6 In conclusion, human muscle fibers survive permanent denervation much longer than generally accepted and relocation of myonuclei is a general behavior in long term denervated muscle fibers. Fig 1.Left Panel: Nuclear clumps are predominant after many years of denervation in human muscle fibers.1 A, Normal muscle; B, 0.8- year denervated muscle characterized by atrophy of myofibers and seldom central nuclei; C, 4.1-year denervated muscle showing severely atrophic myofibers in which contractile apparatus is almost absent and three or more clumped nuclei can be identified in oblique muscle sections. Scale bars: A, B, C = 20 μm. Right panel: Regenerative events in long-term denervated human muscle without (A and B) and after (D and E) several years of home-based Functional Electrical Stimulation (hbFES). Note the extent of recovery of myofiber after years of hbFES.2-6 A and B, 0.7 and 8.7 years of denervation; C, Electron micrograph of a regenerating myotube in long-term denervated muscle, that is surrounded by two layers of basal lamina; D, 2-year denervation followed by 4.3 years of hbFES training; E, 23.3-year denervation followed by 2.7-year hbFES training. Recently regenerated myofibers are stained in green with an antibody anti-embryonic myosin heavy chain. Bars: A, B = 100 μm; C = 2.0 μm : D, E = 50 μm., Duchenne muscular dystrophy (DMD) is a recessive X-linked lethal disease affecting one over 5,000 live male births in which mutations in the dystrophin gene (DMD) lead to lack of a functional protein resulting in susceptibility of myofibers to rupture during contraction. Muscles of DMD patients or experimental models of DMD show progressive necrosis of the myofibers, chronic inflammation and reactive regeneration, which lead to exhaustion of muscle precursor cell pool and replacement of myofibers with fibrous and fatty tissues.1 Although multiple therapeutic approaches have been explored in the last decades and are still under investigation, the standard therapy to DMD remains the use of glucocorticoids despite their limited efficacy and undesired side effects.2 We set up a preclinical approach based on the peculiar properties of Sertoli cells (SeC)3,4 a cell type of the seminiferous tubules of the testis in which they favor the maturation of developing germ cells and protect them against the host immune system. Besides creating a physical barrier (the blood-testis barrier), SeC secrete a plethora of trophic and immunomodulatory factors that confer to these cells the ability to survive long time after engraftment, and protect allo- and xenogenic engraftments of tissues and organs.5 SeC isolated from specific pathogens free (SPF) pre-pubertal pigs were encapsulated in highly biocompatible alginate-based microcapsules (MC-SeC) and injected into the peritoneal cavity of mdx mice, an experimental model of DMD, in the absence of pharmacological immunosuppression.3,4A single i.p. injection of MC-SeC resulted in amelioration of muscle morphology and performance as a consequence of the secretion by SeC of anti-inflammatory factors and heregulin β1, an inducer of the dystrophin paralogue, utrophin, opening new routes in the treatment of DMD. However, information is lacking about possible direct effects of SeC on myoblasts/myotubes. Here, we show that SeC secrete factors able to stimulate cell proliferation in the early phase of the myogenic differentiation process in murine C2C12 and human (healthy and DMD) myoblasts. In DMD myoblasts, SeC-derived factors delayed the expression of the muscle-specific terminal differentiation markers, myogenin and myosin heavy chain (MyHC)-II in the early phase (24h) of the differentiation process; nevertheless, SeC stimulated terminal differentiation (6 days) in these cells, suggesting that the promitogenic activity of SeC does not affect the myogenic potential. Moreover, SeC inhibit the expression of the myofibroblast transdifferentiation markers, COL1A1, FN1 and CTGF/CCN2 in DMD myoblasts, suggesting an antifibrotic effect of the SeC-derived factors. Finally, SeC induced utrophin expression in preformed DMD myotubes regardless of the mutation, with the same mechanism reported in dystrophic mice. Altogether, these results further support the use of MC-SeC or SeC-derived factors in the treatment of DMD patients, and suggest that SeC-based approaches might be useful also in improving the early phase of muscle regeneration, during which myoblasts have to proliferate in order to reach the critical amount required to replace the damaged muscle mass., The skeletal muscle satellite cell was first described in 1961 based on its anatomical location between the myofiber plasma and basement membranes. Soon after the two 1961 independent reports by Alexander Mauro and Bernard Katz, the satellite cells acquired candidacy as the source of myogenic cells needed for myofiber growth and repair throughout life. Cultures of isolated myofibers, and subsequently, transplantation of single myofibers, indeed have demonstrated that satellite cells were myogenic progenitors. Identification of distinctively expressed molecular markers, in particular Pax7, has facilitated detection of satellite cells using light microscopy. With time, the satellite cells have also gained the status of “myogenic stem cells” being capable of self-renewal in addition to producing differentiated progeny. Despite the remarkable progress made since the discovery of satellite cells, researchers have looked for alternative cells with myogenic capacity that could potentially be utilized for whole body cell-based therapy of skeletal muscle. Yet, advances made with genetic mouse models that permit inducible ablation of satellite cells, have certainly reaffirmed the satellite cell’s indispensable role in muscle repair. Genetic lineage tracing has also helped in establishing that the satellite cells strictly provide myogenic cells, but other cell lineages may act in concert with satellite cells in supporting muscle health. Despite much research, the extent of contribution of satellite cells to muscle maintenance in adult and old ages and during muscle hypertrophy and atrophy, has still not been fully resolved. Likewise, the molecular mechanisms of satellite cell recruitment and the proliferation-differentiation-renewal interplay awaits further studies. Another, yet to be resolved aspect, encompasses the satellite cell embryological origin in different muscles and the molecular regulation of the cell’s progression to the satellite cell phenotype. Thus, on the 60th anniversary since its discovery, the satellite cell continues inspiring us to unmask its fascinating secrets. In my talk, I will present some of the historical milestones in the satellite cell field and discuss some published and not-published aspects of my years in myogenesis Fig 1.Identification of distinctively expressed molecular markers, in particular Pax7, has facilitated detection of satellite cells and their proliferating and differentiating progeny in the muscle tissue, in isolated myofibers, and in cultures derived from satellite cells. The satellite cells have also gained the status of “myogenic stem cells,” being capable of self-renewal in addition to producing differentiated progeny., Growth and regeneration of muscle both entail successive proliferation, differentiation and fusion of satellite cells, overseen by an orderly sequence of expression of Myogenic Regulatory Factors. However, detailed investigations of myogenesis muscle growth and regeneration reveal fundamentally different dynamics between the two,1 bringing into question the issue of whether they can efficiently operate contemporaneously within the same tissue. Measurement of myonuclear increase in fibers of the EDL muscle during the burst of postnatal growth in the mouse corresponds closely to the model of serial asymmetric divisions of associated satellite cells,2,3 with one daughter cell from each division entering myogenesis, the other remaining proliferative. This process is identical in the mdx mouse and its wild-type equivalent. In contrast, pulse-chase experiments reveal that each episode of muscle degeneration, provokes a rapid 2-3 day burst of proliferation of satellite cells to repair the damaged muscle, of a size that can only be achieved by a series of predominantly symmetric divisions of myoblasts committed to myogenic differentiation. Two such disparate processes of myogenic dynamics must involve radically different overall regulatory processes of control of satellite cell proliferation that if operating within the same tissue are likely to interfere with one another. In the mdx mouse, the main phase of myogenic growth largely precedes the onset of myopathic disease whereas in DMD boys, the two processes co-exist for 18 years, perhaps accounting for the milder clinical course in the mdx mouse by comparison with the progressively severe disease seen in DMD boys., Satellite cells are activated to proliferate and regenerate damaged myofibers and contribute nuclei to growing myofibers in response to hypertrophic stimuli. We showed that activated satellite cells/myogenic progenitor cells (MPCs) may also regulate remodeling of the extracellular matrix during hypertrophic growth through interaction with fibroblasts. We showed that in vitro, MPC-derived extracellular vesicles (EVs) down-regulate fibroblast collagen expression and depletion of MPC EV-derived microRNAs, particularly miR-206, eliminates this effect. Muscle atrophy occurs with age (sarcopenia), and both muscle regeneration and the hypertrophic response are blunted in old age, associated with a decline in satellite cell abundance. However, whereas depleting satellite cells in mouse muscle throughout adulthood does not exacerbate sarcopenia, it does reduce muscle adaptability to lifelong exercise. Senescent cells accumulate in young adult and aged muscle in response to both injury and a hypertrophic stimulus (mechanical overload), which persist in aged muscle. Senolytics preferentially improve muscle regeneration and hypertrophy, and increase satellite cell abundance in old muscle, whereas senolytics may have detrimental effects in young muscle. Additional molecular and cellular adaptations to senolytics in old muscle will be presented. Acknowledgements: This work was supported by grants from NIA and NIAMS., Tetraspanins are a family of proteins known to assemble protein complexes at the cell membrane. They are thought to play diverse cellular functions in tissues by modifying protein-binding partners, thus bringing complexity and diversity in their regulatory networks. Previously, we identified the tetraspanin KAI/CD82 as a prospective marker for human muscle stem cells. CD82 expression appeared decreased in human Duchenne muscular dystrophy (DMD) muscle, suggesting a functional link to muscular dystrophy, yet whether this decrease is a consequence of dystrophic pathology or a compensatory mechanism in an attempt to rescue muscle from degeneration is currently unknown. We studied the consequences of loss of CD82 expression in normal and dystrophic skeletal muscle and examined the dysregulation of downstream functions in mice aged up to 1 year. Expression of CD82 is important to sustain satellite cell activation, as in its absence there is decreased cell proliferation and less efficient repair of injured muscle. Loss of CD82 in dystrophic muscle leads to a worsened phenotype compared to control dystrophic mice, with decreased pulmonary function, myofiber size, and muscle strength. Mechanistically, decreased myofiber size in CD82-/- dystrophic mice is not due to altered PTEN/AKT signaling, although increased phosphorylation of mTOR at Ser2448 was observed. Basal CD82 expression is important to dystrophic muscle, as its loss leads to significantly weakened myofibers and impaired muscle function, accompanied by decreased satellite cell activity that is unable to protect and repair myofiber damage., Skeletal muscle stem cells, i.e. satellite cells, are the essential source of new myonuclei for regeneration of skeletal muscle tissue following acute injury or in chronic degenerative myopathies. Both satellite cell number and regenerative capacity diminish during ageing. Yet, the molecular regulators that govern the sizing of the initial satellite cell pool are currently unknown, and little data exist for satellite cell population homeostasis in the adult. Here, we show that transgenic TEAD1-expressing skeletal muscle features a dramatic satellite cell hyperplasia but surprisingly without affecting muscle tissue size. Such super-numeral satellite cells attain a 'normal' quiescent state, accelerate regeneration, and maintain regenerative capacity over several injury-induced regeneration bouts. In dystrophic muscle, the TEAD1 transgene also ameliorated the pathology. We further demonstrate that hyperplastic satellite cells accumulate non-cell-autonomously via signal(s) from the TEAD1-expressing myofibers, suggesting that myofiber-specific TEAD1 overexpression activates a physiological signaling pathway(s) that determine initial and homeostatic satellite cell pool size. Applying differential gene expression analysis to the TEAD1 transgenic mouse model, we have identified several candidate molecules for scaling of the satellite cell pool. We are initially focusing our studies on a paracrine signaling ligand, i.e. FGF6, for its muscle-specific expression pattern during development and current lack of data on potential contributions from FGF6 to satellite cell pool scaling during early postnatal development. We are currently investigating SC pool formation in FGF6 germline mutant mice and will discuss our findings. We propose that TEAD1 and its downstream effectors are medically relevant targets for enhancing muscle regeneration., Skeletal muscle stem cells, i.e. satellite cells (SCs), engage in apical contacts with the sarcolemma and basal contacts with the surrounding basement membrane. Protein components that regulate cell polarity or mediate these contacts are known to contribute to SC’s quiescence, activation, proliferation, renewal, as well as differentiation.1-3 Our understanding of how these components mediate multiple aspects of SC biology remains incomplete. We have previously shown that a tight-junction-like complex (including membrane palmitoylated protein 7, i.e. Mpp7, and Angiomotin2, 4 at the apical contact and the β1-integrin at the basal contact,1 mediate multiple aspects of SC function. Extending these lines of investigation, we focus on events downstream of integrins and Mpp7. We will report phenotypes for SC-specific conditional knockouts (SC-cKO) of integrin linked kinase (Ilk), focal adhesion kinase (Fak),5 Mpp7, and Angiomotin in the mouse. For example, single SC-cKOs of Ilk and Fak, two main downstream effectors of integrins, do not phenocopy the SC quiescence-breaking defect reported for β1-integrin SC-cKO, but do display defects in subsequent myogenic progression. On the other hand, single SC-cKOs of Mpp7 and Angiomotin show SC proliferation and renewal defects, resulting in severe deficits in regeneration. Further characterization using cell biological, molecular and biochemical approaches is underway to decipher how these components operate in select myo-regenerative steps. Our eventual goal is to reach a comprehensive understanding of the cross-talk between apical and basal components in the SC to orchestrate the step-wise regenerative process of the skeletal muscle in normal, pathological and aging contexts., Satellite cells are adult stem cells that are required for adult skeletal muscle regeneration, and contribute to a self-renewed, quiescent reserve population. Somite-derived satellite cell populations that reside in anatomically and functionally distinct skeletal muscles differ in their abilities to self-renew, and this process also varies with age. We use the nestin-GFP transgenic mouse model for sorting and tracking of both satellite cell populations and their respective reserve progeny based on GFP reporter expression. Compared to hind limb muscle, sorted GFP+ satellite cell populations isolated from diaphragm produced greater than 3-fold the abundance of nestin-GFP+ reserve cells. Reserve cell generation was less impacted by age based on clonal analysis of resident satellite cells from the diaphragm. Quantitative expression analysis revealed ~16-fold higher Pax3 transcript levels in diaphragm satellite cells compared to limb. These higher relative Pax3 levels were maintained in cultured progeny of diaphragm satellite cells and in sorted reserve cells in primary culture. Alternatively spliced Pax3 mRNAs were also detected in diaphragm satellite cells and reserve progeny, but Pax3 protein was not detectable within diaphragm in vivo or in primary myogenic cultures established from diaphragm. These molecular attributes indicate that satellite cells retain their identity within their muscle origin, but share convergent myogenic programs. Nestin-GFP reporter as an expressed marker of reserve cell development in myogenic culture presents opportunities to investigate mechanistically the influences of cis and trans regulatory elements, epigenetic control and aging using single cell genomics approaches. The unique expression of the reporter in quiescent cells also allows investigation of the local signals in the myogenic niche that maintain or release satellite cells and reserve progeny from the quiescent state in vivo and in co-culture models., Muscle stem cells are heterogeneous in properties, largely resulting from their anatomical location; those in the head are molecularly and functionally distinct from those in the body. Therefore, the modular design that establishes muscles during development might explain why only subsets of muscles exhibit pathology in different myopathies, whereas others escape the disease process. The regulation of skeletal muscle stem cells during homeostasis and regeneration involves an interplay between extrinsic and intrinsic cues. Multiple pathways have been identified that modulate muscle stem cell quiescence and properties. Notably, the proliferation and differentiation properties of extraocular and limb muscles are distinct. To address the underlying mechanisms of this diversity, we performed transcriptional profiling and functional assays of satellite cells isolated from cranial and limb muscles and identified core gene regulatory networks that are common and unique to each population. How extracellular signaling impinges on intracellular decisions to differentially regulate proliferation and differentiation in vivo and ex vivo will be discussed., While myogenic differentiation is known to be driven by the coordinated expression of myogenic regulatory factors (MRFs) how these factors are regulated throughout myogenesis is not well understood. Using human rhabdomyosarcoma cancer cells as an unlikely model system, we discovered that myogenic differentiation is regulated by histone deacetylase (HDAC) epigenetic reprogramming that suppresses myogenic gene expression. Rhabdomyosarcoma is a pediatric cancer that is characterized by a sustained myoblast-like proliferative state. Disruption of the oncogenic drivers of diverse rhabdomyosarcoma cancer cells leads to largescale myogenic differentiation suggesting that the cancer cells retain their myogenic capacity. Using a CRISPR arrayed screening approach to investigate the function of all HDAC Class I genes in rhabdomyosarcoma, HDAC3 was identified as a major repressor of myogenesis in these cancer cells. Structure-function studies revealed that HDAC3 works within the nuclear receptor corepressor complex (NCOR) to prevent the activation of myogenesis. Targeted ablation of members of the HDAC3/NCOR complex resulted in complete myogenic differentiation of the cancer cells, which can be rescued through overexpression of functional genes. We have established a working model for the potential role of the HDAC3/NCOR complex in regulating MRF function during myogenesis., Facioscapulohumeral muscular dystrophy (FSHD) is a prevalent autosomal-dominant myopathy, characterized by a slowly progressive skeletal muscle weakness and wasting. We recently found that a regenerative response is elicited in FSHD muscle (Banerji et al., 2020). Muscle biopsies from FSHD patients have a transcriptomic signature characteristic of muscle regeneration, with an average of 0.5% regenerating myofibers per quadriceps biopsy, rising to 1.7% for tibialis anterior. Muscle regeneration in FSHD is correlated with pathology, as marked by central nucleation of muscle fibers, fibrosis and necrosis. To investigate regenerative myogenesis in FSHD, we have performed extensive analysis of RNA-Seq data. We found that FSHD is characterised by suppression of PAX7 target genes (Banerji et al., 2017)2 and identified several pathways that are perturbed (e.g. Banerji et al., 2019).3 Here, I will update on our progress in understanding regenerative myogenesis in FSHD., Heterotopic ossification (HO), the formation of bone in skeletal muscles and associated soft tissues, is manifested in its most extreme form in the rare genetic disease, fibrodysplasia ossificans progressiva (FOP), which is caused by a gain-of-function mutation in the BMP type I receptor, ACVR1 [ACVR1(R206H)]. FOP patients suffer progressive and life-long severe disability as a cumulative consequence of broadly distributed HO, which interferes with skeletal muscle function, and results in joint ankylosis and other complications that dramatically decrease quality of life and life expectancy. We have shown that fibro/adipogenic progenitors (FAPs) are a major contributor to HO in an accurate genetic mouse model of FOP. Using conditional mutagenesis and receptor over-expression, we show that the stoichiometric balance of wild type (WT) to mutant ACVR1 receptors is a key determinant of disease severity, consistent with a model in which WT and mutant ACVR1 compete for limiting ligand or type II receptor dimerization partners. We have undertaken transcriptome analyses of FAPs during critical early stages of disease progression to better understand molecular underpinnings of their pathogenic commitment to skeletogenic fates resulting from dysregulated signaling through ACVR1(R206H). Key regulators of chondrogenesis and osteogenesis, including Sox9, Runx2, and Osterix, were expressed by 3 days post-injury, 2 to 3 days prior to the histological appearance of cartilage, and 4 to 7 days prior to detection of bone by microCT and histology. Other gene expression changes will be discussed. Previous studies have identified activin A as an essential ligand for ACVR1(R206H)-dependent HO in FOP mice. We show that treatment of FOP mice with an anti-activin A antibody normalizes the FAP transcriptome at early post-injury time points, indicating that activin A-dependent pathogenic processes include pre-skeletal stages, consistent with the requirement for activin A in the early expansion of FOP FAPs in a transplantation model. These studies implicate FAPs as a central therapeutic target for the treatment of FOP., Vertebrate skeletal muscle is composed of post-mitotic, multinucleate myofibers. In response to injury, skeletal has a remarkable capacity to regenerate. A population of dedicated stem cells, the satellite cells, is responsible for regenerating the myofibers. In the absence of injury, satellite cells are quiescent and reside in a niche between the plasmalemma and the basement of the mature myofibers. However, injury stimulates satellite cells to activate, proliferate, migrate, fuse, and differentiate and regenerate damaged myofibers. Interactions between myogenic cells, macrophages and endothelial cells are also critical to the regenerative process. There have been limited efforts to visualize the in vivo cellular response to injury largely due to the difficulty of imaging skeletal muscle in three dimensions. We use novel techniques to image muscle regeneration in whole-mount, in combination with genetic lineage to label and track the fate of satellite cells and immunofluorescence to label endothelial cells and macrophages. Our studies provide critical new insights into the cellular dynamics and interactions governing satellite cell-mediated regeneration., Satellite cells are a population of muscle stem cells that are crucial for supplying additional myonuclei to muscle fibers during post-natal growth and for repair post-injury. Insulin-like Growth Factor-I (IGF-I) expedites skeletal muscle growth and regeneration by amplifying satellite cell proliferation and accelerating myoblast differentiation. It has been postulated that IGF-I diffuses into the satellite cell niche, however, it remains unclear if satellite cells rely on an autocrine source of IGF-I for their actions, or a paracrine source of IGF-I from the myofibers or other cell types. Thus, we sought to determine the critical sources of IGF-I for muscle growth and regeneration. We generated novel mouse models with inducible tissue- and cell-specific ablation of IGF-I: MID (Muscle IGF-I Deficient)1 SID (Satellite cell IGF-I Deficient), SMID (Satellite cell and Muscle IGF-I Deficient) and CTRL (control mice lacking the floxed exon 4 of Igf1), to test the hypothesis that satellite cells require an autocrine source of IGF-I for muscle regeneration. To assess the efficiency of muscle regeneration, mice (n=4/sex/timepoint/genotype) were treated with Tamoxifen (TAM) and/or Doxycycline (DOX) to induce IGF-I deletion prior to unilateral Cardiotoxin (CTX) injection, targeting the tibialis anterior (TA) as previously described.2 The mass of TA muscles from all groups at days 3-7 post-CTX were significantly lower (p, Skeletal muscle regeneration is a crucial mechanism to repair and maintain muscle mass and function throughout life. Skeletal muscle regeneration primarily requires the participation of myogenic progenitors, termed muscle stem cells (MuSCs). In a number of pathological conditions that lack effective therapeutic interventions, such as sarcopenia, muscular dystrophies, or cachexia, skeletal muscles show a decline in MuSCs function and a reduced repair ability.1-4 MuSC function has also been associated with muscle adaptation to every day physical activity, playing a role in muscle adaptation in response to exercise.5-7Muscle stem cell function and regeneration can be promoted/accelerated both in healthy and diseased conditions to enhance muscle repair and maintain muscle function. Therapeutic modulation of MuSC function has mainly been investigated using pharmacologic drugs but interest for nutritional interventions has been recently growing.8-10 In an effort to identify natural bioactive that could promote MuSC regenerative capacity, we have developed and performed an in vitro high content screening assay. Out of this screen, we selected few front-runners that we have tested in an in vivo model of muscle regeneration. These preclinical studies have successfully demonstrated the ability of these compounds to promote MuSC activity and muscle repair., Duchenne muscular dystrophy (DMD) is a caused by loss of the force transmitting and membrane complex organizing protein, dystrophin, and is characterized by progressive skeletal muscle deterioration with failed regeneration and replacement with a fatty-fibrous matrix1. The disease affects both cardiac and skeletal muscles, with the heart undergoing a dilated cardiomyopathy2. Death is due to a combination of respiratory and cardiac muscle failure. Micro-dystrophin gene therapy has entered clinical trials and is now poised to be a transformative therapy for the disease. However, the impact of this gene therapy in humans is unknown, and most of the animal studies with these vectors have been performed in the mdx mouse on the C57/Bl10 background, suffers from being a mild phenotype. We used a severe mouse model of DMD, the mdx mouse on the DBA background (D2.mdx mouse), which has heightened inflammation and fibrosis as compared to the more widely utilized mdx mouse on the C57/Bl10 background. We administered AAV micro-dystrophin gene therapy, using micro-dystrophins that are similar to those currently in clinical trials, at one month or three months of age. At 6 months of age (sedentary), skeletal muscles demonstrated functional rescue, with greatly diminished fibrosis. However, by 12 months of age, there was significant disease progression. Thus it appears that the micro-dystrophins can modify disease progression in skeletal muscle, but that they do no stop progression. We are currently examining combination therapies with micro-dystrophin to attempt to further block disease progression and to delineate the deficits of the micro-dystrophin constructs in clinical trials., Oculopharyngeal muscular dystrophy (OPMD) is a rare and slow-progressing, late-onset, autosomal dominant inherited neuromuscular disorder that starts from midlife onwards and progresses with age. It is characterized by progressive ptosis, dysphagia and proximal limb weakness. Despite the weakness associated with the other muscle groups, it is the complications of dysphagia (choking, regurgitation, aspiration pneumonia, poor nutrition) that most often requires serious intervention in order to preserve life. OPMD is caused by a short (GCN)1-8 expansion in the gene encoding polyadenylate RNA binding protein nuclear 1 (PABPN1).1 The mutation results in an expanded N-terminal polyalanine tract and the misfolded protein (expPABPN1) forms nuclear insoluble ribonucleoproteic aggregates in muscle fibers.2,3 Although the physiopathological mechanisms involved in OPMD are still under investigations, therapeutic strategies are being developed in parallel, since the mutation is known and restricted muscles are affected. Currently OPMD patients can only be referred to surgeons for cricopharyngeal myotomy or corrective surgery to extraocular muscles to ease ptosis. Over the last years we have been working on pharmacological, cell-based and gene-based therapies for OPMD. Pharmacological approach consists in testing anti-aggregation drugs to remove intranuclear PABPN1 aggregates.4,5 Cell-based therapy consists in transplanting autologous myoblasts to improve affected pharyngeal muscle function.6 Gene therapy approach consists in using adeno-associated viral vector (AAV) since the size of PABPN1 allows it: the approach is based on a local AAV delivery in the pharyngeal muscles to both silence mutated PABPN1 and bring back a modified but functional PABPN1 protein in muscle fibers.4,5 An overview and update on these strategies will be given., Duchenne Muscular Dystrophy (DMD) is a lethal muscle disease detected in approximately 1:5000 male births. DMD is caused by mutations in the DMD gene, encoding a critical protein that link the cytoskeleton and the extracellular matrix in skeletal and cardiac muscles. The primary consequence of the disrupted link between the extracellular matrix and the myofiber actin cytoskeleton is involved sarcolemma destabilization, perturbation of Ca2+ homeostasis, activation of proteases, mitochondrial damage and tissue degeneration. A recently emphasized secondary aspect of the dystrophic process is a progressive metabolic change of the dystrophic tissue; however, the mechanism and nature of the metabolic dysregulation are yet poorly understood. In the present study,1 we characterized a molecular mechanism of metabolic perturbation in DMD. We sequenced plasma miRNA in a DMD cohort, comprising of 54 DMD patients treated or not by glucocorticoid, compared to 27 healthy controls, in three age groups. We identified 96 dysregulated miRNAs, of which 74 were up- and 22 down-regulated in DMD. We confirmed the dysregulation in DMD of the Dystro-miRs, Cardio-miRs and a large number of the DLK1-DIO3 miRNAs.2–4 We also identified numerous dysregulated miRNAs, yet unreported in DMD. We then developed an original bioinformatic approach, which is based on miRNAs’ both target and host genes, for the biological interpretation of miRNA dysregulation. This bioinformatic analysis predicted that lipid metabolism is highly dysregulated in DMD. Investigation of skeletal muscles of the mdx mouse model revealed dysregulation of transcription factors of cholesterol and fatty acid metabolism (SREBP1 and SREBP2), perturbation of the mevalonate pathway, and accumulation of cholesterol in skeletal muscles. Elevated cholesterol level was also found in muscle biopsies of DMD patients. Treatment of mdx mice with Simvastatin normalized these perturbations and partially restored some dystrophic parameters. This investigation supports that cholesterol metabolism and the mevalonate pathway are therapeutic targets in DMD., ΔR4-R23/ΔCT micro-dystrophin (μDys) is a miniaturized version of dystrophin currently evaluated in a Duchenne muscular dystrophy (DMD) gene therapy trial to treat skeletal and cardiac muscle disease.1 In pre-clinical studies, μDys efficiently rescues cardiac histopathology, but only partially normalizes cardiac function.2 To gain insights into factors that may impact the cardiac therapeutic efficacy of μDys, we compared the composition of purified dystrophin and μDys protein complexes in the mouse heart using a proteomics-based approach we previously optimized.3 We report that compared to dystrophin, μDys has altered associations with α1- and β2-syntrophins, as well as cavins, a group of caveolae-associated signalling proteins.4 In particular, we found that membrane localization of cavins -1 and -4 in cardiomyocytes requires dystrophin and is profoundly disrupted in the heart of mdx5cv mice, a model of DMD. Under cardiac stress conditions, membrane-associated cavin-4 is known to recruit the signalling molecule ERK to caveolae, which activates key cardio-protective responses.5 Evaluation of ERK signalling revealed a profound inhibition, below physiological baseline, in the mdx5cv mouse heart. Expression of μDys in mdx5cv mice prevented the development of cardiac histopathology but did not rescue membrane localization of cavins nor did it normalize ERK signalling. Our study provides the first comparative analysis of purified protein complexes assembled in vivo by full-length dystrophin and a therapeutic micro-dystrophin construct. This has revealed disruptions in cavins and ERK signalling, that suggest an impaired cardio-protective response in DMD. This new knowledge is relevant to ongoing efforts to prevent and treat heart disease in DMD patients., Duchenne muscular dystrophy (DMD) is one of the most frequent forms of muscular dystrophy and is due to mutations in the dystrophin gene. DMD patients typically die due to cardiac and respiratory muscle failure. Thus maintenance of adequate function in both cardiac and skeletal muscle is critical for optimal DMD therapy. Administration of recombinant adeno-associated viral (rAAV)-mediated micro-dystrophin (μDys) constructs in mdx mice preceding the onset of cardiomyopathy is cardioprotective, however at a late stage of cardiomyopathy, a full rescue of the dysfunction is not achieved. We have developed a gene therapy approach that improve cardiac contractile function by over-expression of the enzyme ribonucleotide reductase (RNR). RNR converts ADP to 2-deoxy-ADP, which is rapidly converted to 2-deoxy-ATP (dATP) in cells. We have reported that AAV6-RNR increases cardiac function in normal and infarcted rodent and porcine heart, increasing systolic pressure development and the rate of pressure increase and decline (4,5) We have shown that dATP is a myosin activator can replace ATP as the contractile substrate for myosin, inducing structural changes that increase its proximity to actin, binding to actin and acto-myosin crossbridge cycling (2, 3). Here (1) we compared the relative therapeutic effect of CK8-driven μDys vs cardiac troponin T (cTnT)-driven RNR in an advanced-age, DMD cardiomyopathy mouse model. We show a restoration of myocardial workload (via Langendorff perfusion), as indicated by rate pressure product (RPP) for baseline function in mdx(4cv) mice of 27 months of age. Although μDys appeared to normalize LV developed pressure in mdx mice, this did not result in a significant increase in RPP. The pressure-volume relationship with increased preload was improved by either treatment. However, only RNR treatment resulted in significant improvements in diastolic functional parameters, returning them to values that were similar to wild-type hearts. Both treatments improved systolic function with high workload challenge, without compromising cardiac reserve. These results suggest that targeted expression of RNR to myocardium can significantly improve contractile performance in an advanced-age DMD cardiomyopathy model, and may have therapeutic implications for DMD patients., Duchenne Muscular Dystrophy (DMD) is a severe degenerative muscle disease with early onset caused by mutations in the dystrophin gene. Dystrophin is mainly expressed in skeletal and cardiac muscle fibers, where it is localized under the sarcolemma in association with proteins of the dystroglycan complex to form the dystrophin-associated protein complex. Lack of dystrophin increases the susceptibility to formation of micro-tears and fragmentation, which is followed by fiber death and regeneration but also by inflammation and repair. The latter process results in fibrosis, which eventually predominates as the regeneration potential decreases. Deregulation of Ca2+ homeostasis leading to increased levels of intracellular Ca2+ is generally accepted as an initiating event1 that can contribute to activation of calpains and degradation of muscle proteins with an effect that is synergistic with oxidative and nitrosative stress. Mitochondrial dysfunction appears early with decreased respiration and ATP production affecting both relaxation and repair of sarcolemmal injury and decreased ability to buffer Ca2+. The long-term effect appears to be a vicious cycle of mitochondrial Ca2+ overload and ATP depletion eventually leading to muscle fiber death.2 In a variety of muscle diseases, including DMD, Ca2+-dependent mitochondrial dysfunction is linked to the permeability transition pore (PTP), an inner membrane channel the opening of which requires matrix Ca2+ and is favored by oxidants, while it is antagonized by Mg2+, adenine nucleotides, reducing agents and acidic pH3. In vertebrates, mitochondrial cyclophilin (CyP) D is a key regulator that favors PTP opening. Pore desensitization by CyPD inhibition has been the basis for the use of cyclosporin (Cs) A in a variety of PTP-dependent diseases.3 Encouraging results have been obtained in various disease models but efficacy of CsA may be more limited in the long term, possibly due to the untoward effects of calcineurin inhibition on fiber switch to the more resistant oxidative type. Non-immunosuppressive derivatives of CsA like NIM811 and Debio 025 (alisporivir), which lack the ability to inhibit calcineurin but maintain the PTP-desensitizing properties, are quite effective in muscle disease models.2 A caveat is in order with this strategy as well, however, because at least sixteen CyP isoforms are known in mammals and all will be affected by this class of inhibitors. We have therefore developed novel PTP inhibitors that do not act through CyPD are a very promising treatment for experimental models of Collagen VI myopathy and DMD.4,5 I will provide an update on the pharmacological inhibition of the PTP in models of muscular dystrophy as well as in cells and muscle fibers derived from patients., Pompe Disease also known as glycogenosis type 2 is due to deficiency in lysosomal alpha-glucosidase,a lysosomal hydrolase and presents infantile and late onset variants (LOPD). The myopathy in LOPD can be reversed by ERT, but also by a high protein and aerobic exercise therapy. From 65 Late onset Pompe cases, we were able to obtain a self-reported evaluation from 58, most of them gave a positive efficacy evaluation of Enzyme Replacement Therapy (ERT) and they were classified by a self administered scale as Responders (R) or non Responders (NR).By a cooperative clinical group age, sex, BMI, GMW scale and 6MWT were monitored, however the only clinical parameters that were significantly associated with a Responder category were the use of regular diet, exercise or both. The present study, shows that in LOPD the condition can be reversed by ERT, but also benefits from concomitant diet and aerobic exercise therapy., Sarcoglycanopathies are rare genetic diseases in which the disruption of the sarcoglycan complex results in sarcolemma fragility and progressive muscle degeneration. Most of the reported cases are due to missense mutations originating a folding-defective sarcoglycan (SG) eliminated by the cells’ quality control system, although potentially functional.1 The molecular mechanism of these diseases has been recently elucidated allowing to envisage novel therapeutic possibilities. To recover the mutants and avoid complex disruption, we exploited the use of protein folding correctors belonging to the CFTR modulators family. The effective rescue of different SG-mutants has been proved for a few of such molecules by using cell models and, importantly, myogenic cells from sarcoglycanopathy patients.2,3 To validate the pharmacological strategy in vivo we have been forced to generate novel animal models of the disease expressing a folding-defective SG, overcoming the unsuitability of the available mouse models.4,5 To this intent, we transduced with AAV-SGCA hind-limbs of α-SG null mouse pups resulting in transiently “humanized hind-limbs”. Indeed, the adeno associated viral transduction resulted in hind-limbs expressing the endogenous β-, γ-, δ-SG, and the human α-SG (wild type or mutated) carried by the virus. By this way, we met the need of generating more than one model of the disease, and we had the possibility to control the amount of the mutated α-SG expressed by the virus. No major effects on survival, body weight and general behavior have been observed in transduced animals. Histological and molecular characterization of the hind-limb muscles from 2 months old mice evidenced the recovery of the dystrophic phenotype when the wild-type sequence of the human α-SG was transduced, while the presence of a mutated α-SG resulted in pathologic features. Mice with “humanized hind-limbs” were then chronically treated with the most promising CFTR corrector, by intra peritoneal injection. The molecular and histological analyses of samples revealed an increase of the α-SG content, a reduction of the signs of myopathy and the re-localization of the SG-complex at the sarcolemma in comparison to the vehicle treated animals. No sign of toxicity was observed during treatment. Even though a great variability is present, this is the first in vivo evidence of the efficacy of CFTR correctors in sarcoglycanopathy., Duchenne muscular dystrophy is the most common neuromuscular disorder of early childhood and characterized by multi-systemic complications that are caused by a primary abnormality in the X-chromosomal DMD gene. In order to identify novel biomarker candidates of the diverse pathophysiological aspects of dystrophinopathy, our laboratories have initiated the systematic survey of body-wide alterations in muscular dystrophy. Mass spectrometry-based proteomics of the established mdx-4cv mouse model of Duchenne muscular dystrophy forms the basis of our analytical approach. Data sets from comparative proteomic investigations are routinely analyzed by systems bioinformatics to determine potential dystrophinopathy-related changes at the level of protein families, biochemical pathways and protein-protein interaction patterns. Proteomic changes in components of special interest are verified by independent methodology, including comparative immunoblotting, immuno-fluorescence microscopy and enzyme assays. Our systematic analysis has focused on the proteomic analysis of various skeletal muscles (diaphragm, various predominantly fast-twitching versus slow-twitching limb muscles, extraocular muscle), cardiac muscle and smooth muscle, as well as the brain, liver, kidney, spleen and pancreas. In addition, the biofluid proteome of serum, saliva and urine were investigated for disease-specific changes in protein constituents. This bioanalytical strategy has identified a large number of muscle-related biomarker candidates involved in fiber contraction, the physiological regulation of the excitation-contraction-relaxation cycle, ion homeostasis, fiber metabolism, cytoskeletal organization, adaptations of the extracellular matrix and the cellular stress response. Importantly, many indirect changes were identified to occur in the liver, kidney and spleen that correlate well with body-wide alterations in energy metabolism, physiological regulation and the immune response. Novel biomarkers will now be tested for improving diagnostic and therapy-monitoring approaches., Muscular Dystrophies (MDs) are a group of genetic diseases characterized by progressive muscle wasting associated to oxidative stress and persistent inflammation. It is essential to deepen our knowledge on the mechanism connecting these two processes because current treatments for MDs have still limited efficacy and/or are associated with side effects. Here, we identified the alarmin High Mobility Group Box 1 (HMGB1) as a functional link between oxidative stress and inflammation in MDs. We previously demonstrated that the oxidation of HMGB1 cysteines switches its extracellular activities from the orchestration of tissue regeneration to the exacerbation of inflammation.1,2 We now found that the balance between HMGB1 redox isoforms dictates whether skeletal muscle is in an inflamed or regenerating state, and we propose the rebalancing of HMGB1 redox isoforms expression as a possible therapeutic approach to counteract the progression of the dystrophic phenotype, α/β-hydrolase domain-containing protein 5 (ABHD5) is a lipid droplet-associated protein that promotes the hydrolysis of triacylglycerols (TAGs) by activating adipose triglyceride lipase (ATGL). ATGL is a lipase which catalyzes the initial and rate-limiting step in lipolysis by removing the first fatty acid from TAGs1. ABHD5 gene mutations lead to Chanarin–Dorfman syndrome (CDS), a rare condition in which TAGs accumulate in various tissues, including skin, liver and muscle2. To date, 147 CDS patients have been described. In these subjects, systemic involvement may manifest as ichthyosis, hepatosplenomegaly and/or liver steatosis, muscle weakness, hypotonia or muscle cramps, nystagmus, cataracts and/or strabismus, deafness, and mental retardation3-4. Here we describe two novel patients from two unrelated Turkey families. Both subjects are males presenting widespread ichthyosis, grade I hepatosteatosis and myopathy. Mutation analysis reveals a frameshift mutation of ABHD5 gene, in homozygous status, causing the production of a truncated protein (p.N209*) which loses the putative interacting domain required for ATGL activation. p.N209* is the most common ABHD5 mutation, in particular in Turkish patients (26/39)5. Since it is difficult to interpreter ABHD5 genetic variants in CDS patients, the description of novel CDS cases might contribute to clarify genotype-phenotype correlation., Duchenne Muscular Dystrophy (DMD) is a lethal X-linked disease that determines high oxidative stress levels, persistent inflammation, myogenic defects and increasing fibrosis and fat deposition within muscles. In this scenario, dysregulation of cellular crosstalk among cell populations involved in muscle regeneration results crucial.1,2 Specifically, stem cell niche of satellite cells (SCs), muscle stem cells, is fine-tuned by immune cells, mainly represented by macrophages (MΦs) and interstitial cells, like fibro-adipogenic progenitors (FAPs).3,4 The experimental design took advantage of a dystrophic mouse model of transient and inducible MΦ depletion recently generated in our laboratory (mdxITGAM-DTR). The research plan also included a transcriptomic approach based on genome-wide expression profiles of whole muscle and muscle resident cells.5 We analyzed the effect of modulation of inflammatory environment on muscle regeneration, focusing on the impact on function of SCs and FAPs. Our data suggest that the modulation of MΦs in dystrophic muscles exerts a deep impact on regeneration leading to an exacerbated phenotype (5). Moreover, we revealed a direct involvement of MΦs in preserving SC and FAP number and identity counteracting, in turn, muscle degeneration. We also identified a novel cell population, referred to as α7Sca1, in MΦ-depleted muscles of mdxITGAM-DTR mice. Considering that, the characterization of the role of macrophages will provide crucial information to design and fine-tune therapeutic approaches targeting inflammatory component in dystrophic muscles., Balneotherapy is a traditional therapeutic modality that exploits natural methods for the treatment and the prevention of several conditions. During the centuries, it has been extensively applied and its effects have been studied in detail. Balneotherapy is frequently used in patients with musculoskeletal disorders (MSDs). In these patients balneotherapy interventions such as mud baths, mineral-rich water immersions, in-water exercises, etc. have been widely used for years. Our purpose is to explore recent evidence concerning balneotherapy interventions in MSDs in order to define if they can represent appropriate strategies to treat these patients. We screen PubMed, MEDLINE and Google Scholar databases using as keywords: balneotherapy, balneology, spa therapy, Health resort medicine, peloidotherapy, and musculoskeletal disorders. The results demonstrate the beneficial effects of balneotherapy on musculoskeletal function, inflammatory parameters, pain perception, and Quality of Life in patients with MSDs. Balneotherapy, especially if combined with rehabilitation interventions and strategies for health education, can significantly improve MSDs symptoms, pro-inflammatory substrate, and psychological concerns of patients with chronic MSDs. Combining the specific chemical effects of mineral-rich waters and the well-known physical properties, in addition to the effects on mental wellbeing, peculiar to the surrounding natural environment, balneotherapy interventions can be used to improve the health status of patients affected by MSDs, representing an effective alternative to in-hospital rehabilitative interventions., The Euganean Thermal District (Italy) represents the oldest and largest thermal district in Europe and its therapeutic mud is considered a unique product whose beneficial effects are documented since Ancient Romans times. Mud properties are ascribed to heat and electrolytes of the thermal water as well as on anti-inflammatory molecules produced by its biotic component. The therapeutic muds are in fact obtained from natural clays applying a traditional maturation process that leads to the growth of a green microbial biofilm with Cyanobacteria as fundamental components. The investigation of the healing effects of compounds produced by these Cyanobacteria is an important goal for scientific validation of Euganean mud therapies and in general for the discovering of new health beneficial biomolecules. So far, it has been demonstrated that Phormidium sp. ETS-05, the most abundant cyanobacterium of the mature muds, produce lipids such as monogalactosyldiacylglycerol (MGDG), that showed anti-inflammatory activity in vitro and in vivo (mouse).1,2 For this reason, Phormidium sp. ETS-05 is considered the target species of the mud maturation process and the effectiveness of its principles led to obtain a European Patent of the mud therapeutic efficacy.3 More recently, we also investigated the therapeutic potential of exopolysaccharides (EPS) produced by Phormidium sp. ETS05, finding that they have anti-inflammatory and pro-resolution activities in vivo (zebrafish), confirming the high value of Euganean mud treatments for chronic inflammatory diseases recovery.4 Moreover, we performed an in-depth study on the microbiota colonizing the Euganean thermal muds.5We analyzed 53 mature muds from 29 sites (Spas) using a polyphasic approach, finding a microbiota stable and peculiar of the area with a Cyanobacteria population composition dominated by Phormidium sp. ETS-05. We also obtained the complete genome sequence of this target species using a mixed sequencing approach based on Illumina and Nanopore sequencing. This will be the base for future studies to understand how mud maturation operating parameters could influence the production of the active therapeutic molecules (lipids and polysaccharides)., Question: does mud application produce histological modification in muscle tissue? Thirty five in-patients underwent twelve days of peloidotherapy in Techirghiol during the year 2005. The study was approved by the bioethics commission of the university and inclusion and exclusion criteria and informed consent were applied. The cropping was made from the left deltoid area and fragments were histologic classical worked, examined with a Nikon E–600 microscope and acquired with a Sony video camera. The images were processed using the LUCIA© G soft of image analysis. The general aspect of muscle tissue shows an increased number of open capillaries, congestion of blood vessels and presence of neoangiogenesis vessels. Patients who received peloidotherapy presented an increased number of blood vessels on the microscopic field, statistically significant P(t) < 0,01. These result on muscle study after peloidotherapy were never previously communicated or published. In conclusion, neoangiogenesis vessels are the evidence of histological modification induced by peloidotherapy. The increased number of open capillaries at the end of balneal treatment illustrates the fact that heat exchange stimulates the thermoregulation and vascular function and thus produces, beside functional hyperemia, new vessels., North American Balneology has largely been focused on wellness and recreation for the past 75 years. Academic research and medical applications are largely absent from the contemporary field. The Balneology Association of North America (BANA) is working with thermal health centers, natural spring managers, and potential patients throughout North America to educate and grow the understanding of the benefits of Balneology. Focusing on convalescent care in a post-COVID world, and the recategorization of thermal mineral waters as a therapeutic agent, BANA aims to see North America rejoin the international community standards for the research and application of Balneology., The Gemeinnützige Stiftung Zurzacher Kuranlagen was set up at the instigation of Dr. Walter Edelmann and his wife in 1957. The establishment of this charitable foundation was prompted by the discovery during drilling operations of a hot spring at a depth of more than 400m. Specifically, this turned out to be an alkaline Glauber's salt thermal spring whose waters, with a temperature of 40 degrees, have excellent healing properties. The foundation's aim and purpose was to cover future developments in the field of medicine. Ultimately, this led to today's foundation group, the multi-site expansion, the current name and the objective of encouraging health promotion in the areas of prevention + rehabilitation and spa + wellness. The Rheumatism and Rehabilitation Clinic (today's RehaClinic) in Bad Zurzach is the foundation's greatest achievement. Alongside conventional Western medicine, its focus now increasingly lies on the inclusion of complementary treatment methods. Traditional Chinese Medicine (TCM) Ming Dao is also a member of the foundation group. Together with the RehaClinic, it adopts an approach that marries conventional Western medicine with traditional Chinese medicine. The RehaClinic in Bad Zurzach was the first of its kind to incorporate TCM into its therapies by making it an established part of the inpatient rehabilitation process in 1995. Following 10 years of successful collaboration between conventional medicine and TCM in treating inpatients, this tried-and-tested concept was also rolled out to a number of outpatient centers. Using a combination of TCM and conventional medicine allows patients to receive therapeutic support for a wide variety of conditions. One of the hallmarks of TCM is its ability to treat more than 90 different diseases. These include strokes, dizziness, sleep problems, facial palsy, colds, rheumatic conditions, pain syndromes, sciatica, shoulder problems, pain in general, menstrual and fertility problems, depression, hay fever, tinnitus and sore throats. The combination of meridian acupuncture, acupressure, cupping, warm wraps and herbal remedies, along with mobilizing methods such as tai chi, qigong, kung fu or the five elements nutrition theory, successfully produces a long-term therapeutic effect at both the physical and mental level. The healing waters of the thermal springs also play a key role in the area of prevention and rehabilitation. The alkaline Glauber's salt has both a preventive and pain-relieving effect. The Bad Zurzach Glauber's salt spring is used in the treatment of musculoskeletal disorders (rheumatoid arthritis), neurological disorders (stroke, paralysis, Parkinson's), vascular disease brought on by cancer and tumor diseases as well as chronic pain. Various exercise baths with different water temperatures and a spacious outdoor pool underscore the importance of the Glauber's salt spring in the recovery process. It alleviates rheumatic complaints, especially wear and tear of the spine, the joints and soft tissues. In addition, bathing has a positive effect on movement and circulatory disorders, as well as on residual paralysis of the central and peripheral nervous system. The water is also suitable for drinking to treat gallbladder, liver and stomach ailments. That is why its effect, and especially its preventive effect, when used in thermal bath treatments is also the subject of ongoing research within TCM prevention. The foundation continually invests in education and research in order to safeguard and integrate the benefits and effects of complementary medicine., Severe tooth wear, crowding, loss of masticatory units and oncologic surgical resections are the most common situations that require restoration of patient dental occlusion.1-3 Any dental work that changes the occlusal surfaces and/or the tooth position could potentially modify oral proprioception. Several study demonstrate how the interdental perception threshold in healthy subjects is less than 2 hundredths of a millimeter. Dental treatments involving occlusal surfaces could change oral proprioception sometimes forcing neuromuscular patterns to develop functional adaptations. Dental afferents play a role in the masticatory muscles recruitment than occlusal modifications could change masticatory muscles global contraction intensity but also their functional relationship. Indeed muscle imbalances may originate from several factors including a higher number of contacts, interference in the working or balancing side and loss of posterior vertical support.4 It has been also demonstrated how proprioceptive dental alterations may require also neck muscles functional adaptations.5 Great number of subjects fortunately has a wide functional adaptability indeed the relationship between abnormal muscle recruitment and symptoms such as pain or signs of dysfunction like movement limitation does not appear linear. The absence of clinical symptoms (mainly pain) following an occlusal intervention does not means a procedure free from imperfections and/or anomalies. The muscles and nervous tissue adaptability to new oral conditions (without causing symptoms such as pain) could “mask” changes in other structures, for example, teeth, bones and joints.6 Surface electromyography (sEMG) is a low-cost, non-invasive method usable in research and in dental clinical practice for the quantitative and qualitative analysis of head and neck muscles.7 Standardized sEMG indexes allow to evaluate occlusal-induced proprioceptive mediated muscular recruitment in a reliable way than merging biomechanical concepts with sEMG standardized indexes, occlusal devices and prosthesis adapting procedures could be clinically performed in order to reduce the muscular adaption to the new occlusal conditions or to re-establish physiological muscular coordination.8 Standardized surface electromyography (ssEMG) protocols for static (clenching) and dynamic (chewing and swallowing) evaluation in the general dentistry practice and cranio-mandibular-dysfunction will be discussed., Transcutaneous auricular nerve stimulation (tANS) is a combined diagnostic and treatment technique, based on normalizing the body's dysfunction through the stimulation of the auricular branch of the vagus nerve at specific sites on the external ear. tANS that potentially influences afferent nerve activity can act directly on the nerve fibers and thus alters the airway physiology. This study aims to measure the effects of selective tANS at predefined sites for both cymba concae (CC) on respiratory function, assuming that it could be altered with the tANS. The protocols were approved by the National Medical Ethics Committee, Ministry of Health, Republic of Slovenia (Unique Identifier No. 0120-297/2018/6). Written, informed consent was obtained from the 62-year-old male subject with angina pectoris. The devices for the tANS are the plugs that contain four platinum stimulating cathodes, a common anode (AXELGAARD MANUFACTURING CO., LTD., Fallbrook, CA 92028, USA), and a microprocessor-controlled stimulator with two independent outputs (Shenzhen L-Domas Technology Ltd., Shenzhen, Guangdong, China). The air-flow measuring system was developed to assess the variations in the airflow, the changes in the rhythm and the character of the respiration produced by the selective tANS. This system comprised a full-face mask and a ventilator flow sensor (HAMILTON MEDICAL, Hamilton Medical AG, Bonaduz, Switzerland) to measure the pressure difference elicited by the bi-directional nasal airflow using a modified transducer for invasive blood-pressure monitoring (Smiths Medical Deutschland GmbH, Germany). The temporal parameters of the rectangular current biphasic stimulating pulses were the following: Frequency 45.5 Hz, Stimulating phase width 200 μs, Anodic phase width 200 μs, Interphase delay 180 μs, Pulse train duration 2.0 s and Time gap between successive pulse trains 1.0 s. The intensity was pre-set until the minimum discomfort at the site below the deployed cathode was detected. The tANS trials were conducted on a daily basis: one site on the left or right CC a day. Each 20-minute trial started with the 5-minute placebo, proceeded with the 10-minute tANS and ended with the 5-minute placebo. The assessed signals fed to a data-acquisition system (DEWESOFT d.o.o., Republic of Slovenia) were gathered at 200 kHz and stored on a portable computer (Lenovo, Beijing, China). To evaluate the effect of tANS each of three segments within a particular recording, were analysed manually. In an off-line analysis, an average of the entities calculated within the particular time period are the following: Breath length calculated from readings during 10 breaths, Peak-to-peak air flow calculated from readings during 10 breaths and finally, Maximum slope of air flow calculated from readings during 10 breaths. The study demonstrated that the selective tANS had either a positive or negative effect on the respiratory function in all the trials. The highest positive and the lowest negative effects were observed in the trial accomplished at the site indicated as left black, while the lowest positive and highest negative effects were observed in the trial accomplished at the site indicated as left yellow. In other trials, these effects were found to be between the above two results., Balneology is a primarily physical therapeutic agent. Physiotherapy must be considered as an adjunctive medical service for long term health and rehabilitation to be administered at Thermal Health Centers. A review of adjunctive physiotherapy methods will be presented along with a case report of the successful treatment of a Diabetic Neuropathic Foot Ulcer scheduled for surgical amputation, by therapeutically applying non-balneological physical agents., Mitochondria are dynamic organelles that are constantly being synthesized and recycled. This “turnover” promotes the maintenance of an optimally functioning pool of mitochondria. In response to acute exercise, signaling cascades are initiated to upregulate PGC-1α, as well as other transcriptional regulators, which increase the transcription of nuclear genes encoding mitochondrial proteins. These gene products are translated and incorporated into preexisting organelles, which can then fuse with the mitochondrial reticulum. When mitochondrial dysfunction arises, evident from the loss of membrane potential and increased ROS emission, these organelle segments undergo fission from the functional network and are subject to mitophagy and recycling, aided by the lysosome. The most common pathway for mitochondrial degradation involves the activation of Pink1 and Parkin. Mitochondria tagged by this pathway are engulfed in autophagosomes and then transported to lysosomes, where the two will fuse and the contents of the autophagosome will be broken down by lysosomal enzymes. Exercise is a stimulus for mitochondrial targeting, lysosomal biogenesis, and subsequent degradation of autophagosomes, and can serve to repair mitochondrial dysfunction via this pathway. This Seminar will focus on the regulation of mitophagy with exercise, involving both PGC-1α as well as the Pink1-Parkin pathway., The mitochondrial calcium uniporter (MCU) complex with its regulatory subunits provides mitochondria with a highly specialized channel which allows a fast uptake of calcium from the cytosol as soon as cytosolic calcium concentration rises. It is widely accepted that, in skeletal muscle fibers, calcium taken up by mitochondria plays a significant regulatory role in a variety of processes from metabolism regulation to muscle fiber trophism and to apoptosis (see for review, Raffaello et al. 2016).1 In contrast it is still debated whether MCU can contribute to shape the cytosolic calcium transients in skeletal muscle during excitation-contraction (E-C) coupling. The close apposition of mitochondria to the calcium release units (CRU) can be definitely instrumental to this function. There are two factors playing against this possibility: 1) the timing, i.e. whether the mitochondrial calcium uptake is sufficiently fast to modify a calcium release-removal cycle which lasts less than 100 ms and 2) the amount of calcium which can be stored in the mitochondrial matrix, as the mitochondria could store only a small fraction of the hundreds of micromoles of calcium released by the sarcoplasmic reticulum. Taken together these two factors have supported the view that mitochondria are not relevant for a quantitative regulation of intracellular calcium dynamics (Cannell and Allen 1984,2 Baylor and Hollingworth 20123). There are, however, a few studies showing that under specific conditions mitochondria can contribute significantly. Gillis (1997)4 showed that local application of Ruthenium Red (50 μM) was able to slow down the relaxation process in intact fibers of rabbit masseter where mitochondria cover 16% of fiber volume and in rat soleus muscle. More recently, Weiss and coworkers (2010)5 showed that FCCP application in rat FDB induced not only delayed relaxation but also increased the level of resting cytosolic calcium concentration. Consistently, Yi and coworkers (2011)6 showed a prolongation of the cytosolic calcium transient induced by voltage clamp in FDB fibers of a mouse model of amyotrophic lateral sclerosis (ALS). Muscle fibers of this murine strain show localized mitochondrial defects involving loss of inner membrane potential linked to an elevated and poorly controlled intracellular calcium release activity. In the present study we aimed to assess the contribution of mitochondria to control cytosolic calcium transient in FDB muscle fibers of mice carrying a null mutation of parvalbumin (PV) (Schwaller et al 1999) 7. PV is the major cytosolic calcium buffer, able to bind an amount of calcium comparable to that bound by C-troponin, although with a slower kinetics. Thus, PV removal is expected to create a significant unbalance in cytosolic calcium homeostasis. Our experimental results showed that, in PV null fibers compared to WT fibers, no changes in amplitude but only changes in kinetics of the cytosolic calcium transients induced by electrical stimulation were detectable. To assess the potential contribution of mitochondria, we modified the mitochondrial capacity to take up calcium by silencing the MCU, along the line of previous studies (Mammucari et al. 2015).8 In single muscle fiber of FDB MCU-silenced PV null, but not in MCU-silenced WT fibers, we observed a higher peak of cytosolic calcium following a calcium release induced either by electrical stimulation or by caffeine (10 mM) administration. Our results add further evidence to the view that mitochondria are able to contribute to cytosolic calcium regulation in skeletal muscle fibers and, under suitable conditions, their contribution becomes a determinant of amplitude and kinetics of calcium transients., After its commercial availability around the fifties and a large use and application, for a period of time electron microscopy (E.M.) went out of fashion and often it has been considered simply too descriptive to be worthy of publication. However, standard electron E.M. often provides the structural basis at the nanoscale level for unraveling functions and defining mechanisms of the cells. Because of his stereotyped striated architecture skeletal muscle provides a convenient model to show the utility of structure-function correlation. Indeed just to quote an old instance: the mechanisms of muscle contraction from the triggering of contraction to the sliding filaments theory (A. F. Huxley),1 excitation-contraction coupling,2,3 and calcium homeostasis could not have been elucidated without the structural foundation revealed by E.M. muscle. More recently, our laboratory provided evidence for mitochondria and calcium release units (CRUs) structural association,4 and described for the first time presence of new structural organelles contributing to Ca2+ influx during the Store Operated Calcium Entry (SOCE) mechanism.5 Using examples from published data and my extensive archive of micrographs, I illustrate how well performed E.M. analysis and electron micrographs are extensive sources of information in physiological or pathological conditions still in our modern time., Proper skeletal muscle function is controlled by intracellular Ca2+ concentration and by efficient production of energy (ATP), which in turn depend on: a) release and re-uptake of Ca2+ from intracellular stores during excitation-contraction (EC) coupling, which controls muscle contraction and relaxation; b) uptake of Ca2+ into the mitochondrial matrix, which stimulates aerobic ATP production; and finally c) entry of Ca2+ from the extracellular space via store-operated Ca2+ entry (SOCE), a mechanism important to limit muscle fatigue. Abnormalities in Ca2+ handling underlies many physio-pathological conditions, including dysfunction in ageing. In the last 15 years in different, but complementary, projects we have collected the following results: a) denervation of muscle fibers – an event that contributes to some degree to sarcopenia - causes disarray of EC coupling membranes (calcium release units, CRUs) and of the mitochondrial network;1 b) sedentary ageing causes partial disarray of CRUs and calcium entry units (CEUs, dynamic structures involved in SOCE), and misplacement of mitochondria;2 c) functional electrical stimulation (FES) and exercise promotes rescue/maintenance of the proper architecture of CRUs, CEUs, and mitochondria in denervation and ageing.3,4 These data indicate that a) integrity and proper disposition of intracellular organelles deputed to Ca2+ handling and aerobic generation of ATP is challenged by inactivity or reduced activity; and b) disarranged architecture of the intracellular membrane systems may underline muscle dysfunction in ageing and sarcopenia., Ca2+ release units (CRUs, also named triads), the sites of excitation-contraction coupling (EC)1 and mitochondria, the organelles deputed to produce ATP during cellular respiration,2 in fast-twitch fibers from adult mice are structurally linked by small strands, or tethers.3 The uptake of Ca2+ into the mitochondrial matrix is influenced by triad-mitochondria proximity and proposed to stimulate the respiratory chain.2,4 Aging causes separation of a fraction of mitochondria from CRUs and a cross-talk impairment between the two organelles.5 However, whether this uncoupling is the result of ageing per-se or the consequence of reduced muscle activity remains still unclear. In a paper published in 2019,6 we tested if muscle activity maintains the correct association of mitochondria and triads, in a) extensor digitorum longus (EDL) muscles from 2 years old mice, either sedentary or trained for 1 year in wheel cages; and b) EDL muscles from denervated adult mice and rats. We analyzed muscle samples using a combination of structural, biochemical, and functional experimental procedures. The results collected in structural studies indicate that: a) ageing and denervation result in partial uncoupling between CRUs and mitochondria; b) exercise and re-innervation either maintains (in old mice) or restores (in transiently denervated rats and mice) the association between the two organelles. Functional studies support the hypothesis that CRU-mitochondria cross-talk is important for mitochondrial Ca2+ uptake. Taken together, our results suggest that muscle activity is necessary to maintain/improve the proper association between sites of Ca2+ release and mitochondria, which is important for correct signaling between the two organelles and, likely, for proper aerobic ATP production., The second messenger Ca2+ regulates a broad repertoire of cellular processes. Upon physiological stimuli, skeletal muscle mitochondria rapidly and efficiently accumulate Ca2+ into their matrix via an electrogenic pathway that relies on the driving force of a steep electrochemical gradient. A large [Ca2+]mt peak occurs dynamically in parallel to agonist-induced [Ca2+]cyt increases, thanks to the activity of the Mitochondrial Calcium Uniporter (MCU), the highly selective channel responsible for mitochondrial Ca2+ accumulation.1 MCU positively regulates myofiber size in physiological conditions, and counteracts pathological loss of muscle mass.2 We have previously demonstrated that skeletal muscle-specific MCU deletion (MCU-/-) inhibits myofiber mitochondrial Ca2+ uptake, impairs muscle force and exercise performance. Mitochondrial Calcium uptake is required for effective glucose oxidation, as demonstrated by the fact that in muscle-specific MCU-/- myofibers oxidative metabolism is impaired and glycolysis rate is increased. The decreased pyruvate dehydrogenase activity is the main trigger of this metabolic rewiring. Although defective, mitochondrial activity is partially sustained by increased fatty acid (FA) oxidation.3 Here, we have investigated the role of mitochondrial Ca2+ uptake during skeletal muscle aging. We show that mitochondrial Ca2+ accumulation is decreased in 24 months old mice and this condition is accompanied by a decreased pyruvate dehydrogenase activity. We demonstrate a rewiring of skeletal muscle metabolism where mitochondrial activity is sustained by FA oxidation rather than glucose. Further studies are needed to evaluate whether the restoration of glucose as the main fuel for oxidative metabolism will be sufficient to counteract sarcopenia., Cancer cachexia is a complex multifactorial syndrome characterized by involuntary and pathological weight loss, mainly due to skeletal muscle wasting, and frequently associated with a profound fatigue. These effects are often blamed for decreasing patient´s quality of life and survival. Statistics point to cachexia as a direct cause of death for 20-25% of all cancer patients.1 Regarding the pathophysiology of the syndrome, most of the data available in the literature is obtained through pre-clinical studies, which are carried out with very different experimental cancer models, most frequently at advanced cachexia stages. The most studied and best described models show decreasing in cross-sectional area of muscle fibers, and this atrophy is more likely to affect type II fibers. In addition, skeletal muscle ultrastructure appears to be impaired. Several studies have suggested an association between mitochondria dysfunction and skeletal muscle atrophy through disturbances in its dynamics, quality and function. These changes would precede muscle loss, while mitophagy would be present at later stages.2 The oxidative stress, that is related to myofibrils proteolysis and atrophy at different cachexia stages,3 is pointed out as mitochondrial modifications responsibility.4 In the last years, our group has dedicated attention to investigate oxidative and ultrastructural modifications in mitochondria and sarcoplasmic reticulum (SR), and correlate with muscle loss in glycolytic and oxidative muscles in a precocious stage of breast carcinosarcoma-induced cachexia.5 Recently collected data, show that, in a very early stage of an experimental model of cachexia: 1) glycolytic muscles are already more prone to mass waste, but independently of protein oxidation; 2) glycolytic fibers are already sensitive to mitochondria, and SR structural alterations; 3) these parameters are straightly correlated to membranes oxidative modifications; and 4) oxidative muscles are not preserved from oxidative and structural damage. We believe these new data bring to light an useful tool to fight this devastating syndrome., See you to the 2022 Padua Days on Muscle & Mobility Medicine (PDM3), March 27-30, Thermae of Euganean Hills & Padova, Italy. I hope that massive vaccination will allow for in presence Meetings. If not we will continue with semi virtual or virtual Meetings.1,2 Traditional sessions will be: Sarcopenia & Aging; Neuromuscular Disorders in Sarcopenia & Cachexia; New Applications of TENS& FES; Therapies for genetic diseases; Muscle & Mobility Medicine Imaging; The Center of Active Aging; Rehabilitation of Mobility Disorders. New topics are welcome and I hope they will emerge during the incoming 2021 PDM3 May 26-29. Notice, please, that the deadline for submissions of Abstracts and Registrations will be September 30, 2021.

Published

2021

45. Effects of Physical Agents on Muscle Healing with a Focus on Animal Model Research

Author

Miki Sakamoto

Subjects

Physical agents, business.industry, Skeletal muscle, Strain (injury), Stimulation, Review, medicine.disease, Cell biology, Muscle regeneration, medicine.anatomical_structure, Precursor cell, medicine, Fibroblast, business, Process (anatomy)

Abstract

Skeletal muscle injury is caused by a variety of events, such as muscle laceration, contusions, or strain. Muscle fibers respond to minor damage with immediate repair mechanisms that reseal the cell membrane. On the other hand, repair of irreversibly damaged fibers is achieved by activation of muscle precursor cells. Muscle repair is not always perfect, especially after severe damage, and can lead to excessive fibroblast proliferation that results in the formation of scar tissue within muscle fibers. Remaining scar tissue can impair joint movement, reduce muscular strength, and inhibit exercise ability; therefore, to restore muscle function, minimizing the extent of injury and promoting muscle regeneration are necessary. Various physical agents, such as cold, thermal, electrical stimulation, and low-intensity pulsed ultrasound therapy, have been reported as treatments for muscle healing. Although approaches based on the muscle regeneration process have been under development, the most efficacious physiological treatment for muscle injury remains unclear. In this review, the influence of these physical agents on muscle injury is described with a focus on research using animal models.

Published

2021

46. Occupation, occupational exposures and mammographic density in Spanish women

Author

Beatriz Pérez-Gómez, Rafael Llobet, Virginia Lope, Marina Nieves Pino, Mª Carmen González-Galarzo, Pilar Lucas, Javier García-Pérez, Dolores Salas-Trejo, Juan Alguacil, Rudolf van der Haar, Miguel Ángel Alba, María Sierra, Tamara Jiménez, Marina Pollán, Nerea Fernández de Larrea-Baz, Inmaculada Martínez, and Mercedes Martínez-Cortés

Subjects

Adult, Job-exposure matrix, Chemical agents, Breast Neoplasms, 010501 environmental sciences, 01 natural sciences, Biochemistry, Physical agents, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Risk Factors, 32 Ciencias Médicas, Occupational Exposure, medicine, Humans, 030212 general & internal medicine, Risk factor, Family history, Occupations, 0105 earth and related environmental sciences, General Environmental Science, Occupation, business.industry, MAMMOGRAPHIC DENSITY, Middle Aged, medicine.disease, Confidence interval, DDM-Madrid, Cross-Sectional Studies, Breast density, Female, Work history, business, Body mass index, LENGUAJES Y SISTEMAS INFORMATICOS, Demography, Mammography

Abstract

[EN] Introduction: Mammographic density (MD), the proportion of radiologically dense breast tissue, is a strong risk factor for breast cancer. Our objective is to investigate the influence of occupations and occupational exposure to physical, chemical, and microbiological agents on MD in Spanish premenopausal women. Methods: This is a cross-sectional study based on 1362 premenopausal workers, aged 39-50, who attended a gynecological screening in a breast radiodiagnosis unit of Madrid City Council. The work history was compiled through a personal interview. Exposure to occupational agents was evaluated using the Spanish job-exposure matrix MatEmESp. MD percentage was assessed using the validated semi-automated computer tool DM-Scan. The association between occupation, occupational exposures, and MD was quantified using multiple linear regression models, adjusted for age, educational level, body mass index, parity, previous breast biopsies, family history of breast cancer, energy intake, use of oral contraceptives, smoking, and alcohol consumption. Results: Although no occupation was statistically significantly associated with MD, a borderline significant inverse association was mainly observed in orchard, greenhouse, nursery, and garden workers (beta = -6.60; 95% confidence interval (95%CI) = -14.27; 1.07) and information and communication technology technicians (beta = -7.27; 95%CI = -15.37; 0.84). On the contrary, a positive association was found among technicians in art galleries, museums, and libraries (beta = 8.47; 95%CI = -0.65; 17.60). Women occupationally exposed to fungicides, herbicides, and insecticides tended to have lower MD. The percentage of density decreased by almost 2% for every 5 years spent in occupations exposed to the mentioned agents. Conclusions: Although our findings point to a lack of association with the occupations and exposures analyzed, this study supports a deeper exploration of the role of certain occupational agents in MD, such as pesticides., This work was supported by the Carlos III Institute of Health (AESI PI15CIII/00029 and AESI PI15CIII/00013). The article presents independent research. The views expressed are those of the authors and not necessarily those of the Carlos III Institute of Health.

Published

2021

47. The emergence of collective response to decisions in a group of physical agents

Author

Yara Khaluf

Subjects

Physical agents, Group (periodic table), Psychology, Social psychology

Published

2021

48. Physical intelligence as a new paradigm

Author

Metin Sitti, Sitti, Metin (ORCID 0000-0001-8249-3854 & YÖK ID 297104), School of Medicine, College of Engineering, and Department of Mechanical Engineering

Subjects

Physical agents, Biological organism, business.industry, Mechanical Engineering, Bioengineering, Computational intelligence, Robotics, 02 engineering and technology, Biology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Mechanics of Materials, Human–computer interaction, Engineering, Materials science, Mechanics, Physical intelligence, Meta materials, Multistability, Mechanical memory, Mechanical computation, Mechanical design, Chemical Engineering (miscellaneous), Robot, Artificial intelligence, 0210 nano-technology, business, Engineering (miscellaneous), Merge (linguistics)

Abstract

Intelligence of physical agents, such as human-made (e.g., robots, autonomous cars) and biological (e.g., animals, plants) ones, is not only enabled by their computational intelligence (CI) in their brain, but also by their physical intelligence (PI) encoded in their body. Therefore, it is essential to advance the PI of human-made agents as much as possible, in addition to their CI, to operate them in unstructured and complex real-world environments like the biological agents. This article gives a perspective on what PI paradigm is, when PI can be more significant and dominant in physical and biological agents at different length scales and how bioinspired and abstract PI methods can be created in agent bodies. PI paradigm aims to synergize and merge many research fields, such as mechanics, materials science, robotics, mechanical design, fluidics, active matter, biology, self-assembly and collective systems, to enable advanced PI capabilities in human-made agent bodies, comparable to the ones observed in biological organisms. Such capabilities would progress the future robots and other machines beyond what can be realized using the current frameworks., European Union (EU); Horizon 2020; European Research Council (ERC); Advanced Grant; SoMMoR Project; German Research Foundation (DFG); Soft Material Robotic Systems (SPP 2100) Program; Max Planck Society

Published

2021

49. Comparison of mice' sperm parameters exposed to some hazardous physical agents

Author

Hamzeh Mohammadi, Manouchehr Ahmadi Moghadam, Faezeh Abasi Balochkhaneh, Mohammad-Bagher Abdollahi, and Somayeh Farhang Dehghan

Subjects

Physical agents, medicine.diagnostic_test, business.industry, Male mice, Semen analysis, Sperm, Mean difference, World health, Exposure, Mice, Animal science, Exposure group, medicine, Original Article, Sperm parameters, business

Abstract

The present study was aimed to compare the effects of exposure to noise, vibration, lighting, and microwave on male mice’ sperm parameters. The mice were randomly assigned to five groups of eight, which comprised of the unexposed group and exposure groups including the lighting (1000 lux), noise (100 dB(A)), vibration (acceleration of 1.2 m/s2) and microwave (power density of 5 watts). The exposure groups were subjected to the four agents for 8 hours a day, 5 days a week during a 2-week period. Semen analysis were done according to World Health Organization guidelines. The highest significant mean difference in sperm count (-1.35×106/mL) had being observed between the microwave group and the control one (P=0.001). The highest difference in immotile percent (25.88 %) had being observed between the noise group and the control one (P=0.001). The highest difference in normal morphology (-27.06 %) observed between the lighting exposure group and the control group (P=0.001). The four agents can cause changes in different sperm parameters, however for definite conclusion; more laboratory and field studies are required. In total, exposure to microwave has had the greatest effect on sperm count and exposure to light has had the greatest effect on normal morphology and non-progressive motility. Moreover, exposure to noise has had the greatest effect on progressive motility and immotile percent, respectively.

Published

2020

50. Occupational exposure to noise and whole-body vibration in farmers of the Northern Area of Cartago, Costa Rica

Author

Ara Villalobos-Rodríguez and Tannia Araya-Solano

Subjects

noise, ruido, trabajadores agrícolas, Tractor, Industrial and Manufacturing Engineering, 03 medical and health sciences, Health problems, 0302 clinical medicine, whole body vibration, agricultura, Environmental health, Medicine, Whole body vibration, 0501 psychology and cognitive sciences, Noise dosimeter, maquinaria agrícola, Noise level, 050107 human factors, Physical agents, Vibraciones, business.industry, 05 social sciences, occupational exposure, 030210 environmental & occupational health, vibraciones cuerpo entero, Occupational exposure, Vibration exposure, business, Whole body

Abstract

Resumen Como parte de las actividades que se realizan en el sector agrícola se hace uso de vehículos, por lo que se tiene contacto con diferentes agentes físicos como el ruido y las vibraciones de cuerpo entero, debido a esto el objetivo de este proyecto fue determinar la exposición ocupacional a estos agentes durante el uso del tractor, específicamente en labores realizadas en la Zona Norte de Cartago, Costa Rica. Para alcanzar dicho objetivo, se efectuó un estudio exploratorio en 13 fincas, en las cuales se cuantificaron los valores de exposición a ambos agentes, haciendo uso de un vibrómetro y audiodosímetros. Como resultado, se obtuvo que los niveles de exposición diaria a vibraciones se encuentran sobre el valor de acción en el 53,8% de los casos, y los resultados del nivel sonoro continuo equivalente (NSCE) se ubican entre los 54,8dB(A) a 75,4 dB(A), por lo que no sobrepasan el nivel de exposición ocupacional. Además, se identificaron los factores de riesgo relacionados con estos agentes, la antigüedad de la maquinaria y dispositivos colocados en el vehículo, así como los factores personales que pueden influir en la aparición de dolencias, relacionadas con la actividad laboral. Existen otros factores de riesgo en la población en estudio, asociados a las posturas adoptadas y al índice de masa corporal de los colaboradores. Se concluye que la exposición a las vibraciones en cuerpo entero, podría llegar a generar efectos a la salud a largo plazo, además, el dispositivo de acople y modelo se convierten en factores que pueden influir en la exposición. Abstract The use of tractor in the agricultural sector is very common, the physical agents associated with it use are noise and vibrations of the whole body; the objective of this project was to determine occupational exposure to these agents during the use of the tractor in 13 small companies of the northern zone of Cartago, Costa Rica. The exposure were measurement with the ISO 2631- 1: 2001 and noise dosimeter. As a result, it was obtained that daily vibration exposure levels are above the action level in 53,8% of cases, and the noise level is between 54,8dB(A) a 75,4 dB(A), below occupational level exposure. The risks factors identified were related to the model and devices used in the equipment, postures and body mass index. The main conclusion is that the exposure to whole body vibration may cause health problems in the term, the model and devices used in the equipment are a risk factor of the exposure.

Published

2020