Your search keyword '"Filingeri, D."' showing total 98 results

1. Mild evaporative cooling applied to the torso provides thermoregulatory benefits during running in the heat

Author

Filingeri, D., Fournet, D., Hodder, S., and Havenith, G.

Published

2015

2. Warm temperature stimulus suppresses the perception of skin wetness during initial contact with a wet surface

Author

Filingeri, D., Redortier, B., Hodder, S., and Havenith, G.

Published

2015

3. 1RM BENCH PRESS PERFORMANCE: A NEW METHOD OF EVALUATION IN RECREATIONAL MALE AND FEMALE

Author

Bianco, A., Filingeri, D., Marianna BELLAFIORE, Battaglia, G., Paoli, A., Palma, A., Thomas, E, Filingeri, D, Paoli, A, Bellafiore, M, Bianco, A, Palma, A, and Battaglia, G

Subjects

1rm bench press test, Performance, Predictive formulas, Sedentary people, 1RM Bench press test, Performance, Predictive Formulas, Sedentary People, Bench press - evaluation

Abstract

It is widely recognised that the 1 RM bench press test is the most valid in evaluating the upper body maximal strength in both athletes and sedentary individuals. Various approaches are used for its evaluation, both through prediction equations or practical attempts. The aim of this study was to assess a new method to perform the bench press test combining previously validated theoretical and practical procedures. Fifteen participants (8 male Age=23.5±2.3 FM%=17.3±9.2 and 7 female Age=27.9±10 FM%=25.6±6.9) with no specific training history were tested. Physiological parameters ware recorded before, during and after each test. Participants had to perform a set of repetitions to fatigue (RTF) with a workload corresponding to ⅓ of their body mass (BM) for a maximum of 25 repetitions. After a 5-minute rest, a set of RTF was performed with ½ of BM. The number of repetitions performed in this set was then used to predict the theoretical 1RM using the Mayhew’s equation. At this point participants were invited to attempt the 1 RM bench press test with the predicted workload, for a maximum of 3 attempts. Rate of perceived exertion (RPE) was assessed at the end each test. The results of the set RTF performed with ½ BM was significantly (p, Italian Journal of Anatomy and Embryology, Vol 118, No 2 (Supplement) 2013

Published

2013

4. Physiological response on 1 RM bench press performance

Author

Thomas, Ewan, Filingeri, D, Vasile Simone, S, Moro, T, Mancuso, E, BIANCO, Antonino, PALMA, Antonio, Thomas, E, Filingeri, D, Vasile Simone, S, Moro, T, Mancuso, E, Palma, A, and Bianco, A

Subjects

Settore M-EDF/02 - Metodi E Didattiche Delle Attivita' Sportive, 1RM, Performance, Settore M-EDF/01 - Metodi E Didattiche Delle Attivita' Motorie

Abstract

A number of methods for determining upper body maximal strength are present. The 1-RM is defined as the maximum amount of resistance that can be performed for only 1 repetition and it has been shown to be reliable in various populations. Further, setting an intensity of resistance training based on a percentage of the 1-RM has been found to be effective for improving outcomes such as muscle strength, muscle power, and muscle hypertrophy. Little is known about the metabolic cost of 1RM evaluation and which is the optimal recovery time between sessions. We analyzed the physiological response during a standardized protocol of 1RM-Bench Press Test (1RM-BP). Fourteen healthy subjects (25,6±7,4 yrs; 166,3±0,9 cm; 65,6±13,2 kg) performed a 1RM-BP following standardized procedures. VO2 and Heart Rate ware measured before, during and after the BP performance while Systolic (Sys) and Diastolic (Dys) pressure were measured only before and after the test. At the e! nd of the 1RM-BP , Blood Lactate (BL)was assessed and participants were asked for perceived exertion according with the Borg Scale (RPE). The protocol consisted of five steps; 15 repetitions with � of the subjects body weight were performed in the first step, subsequently weight was added up to ½ of bodyweight and a maximal number of repetitions were performed. In the third step the participants executed the theoretical 1RM-BP according to the Mayhew’s formula that considers the number of repetitions completed with ½ bodyweight of each subject. The other steps ware performed only if the third one was completed, if not 2-5% more weight was added on the barbell until 1RM was obtained, this was repeated if necessary for a maximum of other 2 times. The results show that there are no significant differences in VO2 values between male and female, only in the second step (½ Bodyweight) males achieve higher results (p=0,0032). BL was significantly! higher in male(p=0,042) even if %Lean mass was not quite significantly higher than female(p=0,0532). The most interesting result is shown by Pearson’s correlation between %Lean mass vs 1RM-BP; male were positively correlated( r=0,61) while female were negatively (r=-0,65). Unexpected results need to be confirmed by a larger number of participants, but at this stage this study shows that in any case there are gender differences. Furthermore, this study confirms the reliability, feasibility and safety of the 1RM-BP.

Published

2012

5. Handgrip strength and 1RM bench press performance: a novel approach to evaluate upper body maximal strength

Author

Filingeri, D, Thomas, Ewan, Raccuglia, M, Paoli, A, BIANCO, Antonino, PALMA, Antonio, Filingeri, D, Thomas, E, Raccuglia, M, Paoli, A, Bianco, A, and Palma, A

Subjects

Settore M-EDF/02 - Metodi E Didattiche Delle Attivita' Sportive, Handgrip, 1RM, Strength, Conditioning, Settore M-EDF/01 - Metodi E Didattiche Delle Attivita' Motorie

Abstract

In the last few years, handgrip strength has been widely recognized as a relevant indicator of physical function, nutritional status and quality of life in a clinical population. However, the scientific literature is still lacking of knowledge regarding the use of this indicator within a general healthy and physically active population. The possibility to use the handgrip strength as an indicative value of some specific physical qualities, such as the upper body maximal strength (expressed in terms of 1RM bench press), can be considered an unexplored field and its development might represent a relevant support for the strength and conditioning professionals. Therefore, we hypothesize that a significant association might be found between handgrip strength, body composition and upper body maximal strength and that this association might be used as a specific “performance predictor”. Fifteen healthy subjects (8 men / 7 women; age 25.53 ± 7.14 yr;! body mass 65.58 ± 13.26 kg; height 167±10 cm) without habitual intensive exercise participated in this pilot intervention. Body composition, handgrip strength and maximal body upper strength were evaluated. Subjects’ body composition was estimated through a bioelectrical impedance analysis and resulted in a mean value of 22.12 ± 8.64% of fat and 77.81 ± 8.5%1 of lean mass. Handgrip (HG) strength was estimated for both dominant and not dominant side, respectively (39.27 ± 14.52 w; 37.59 ± 13.49 w) through the use of a handgrip dynamometer. Subjects’ upper body strength was tested using a bench press 1RM test with an already standardized protocol. Subjects’ maximal strength resulted in an average of 49.21 ± 23.87 kg. HG and 1RM testing were overseen by the same investigator and conducted with the same equipment. Each subject was instructed to refrain from any strenuous activities for 72 hours before testing d! ay. STATISTICA Software package© for Windows© was adopted wh en appropriate. Overall the findings showed a strong relation (Pearson’s r=0.77) between HG and 1RM bench press in both, male (0.41) and female (0.80) but a low association with Free Fat Mass. Unexpectedly, female have higher association than males. These preliminary results shown that the handgrip strength might be associated to the individual maximal strength performance and it might be considered as a valid predictor of upper body strength performance within a sport/fitness context, though the presented pilot intervention we cannot draw any conclusion on the topic, due to the limited sample analyzed.

Published

2012

6. IS HYPOXIA A TRAINING STIMULUS FOR ENDURANCE ATHLETES’ PERFORMANCE? A BRIEF REVIEW

Author

Filingeri, D, Mancuso, EP, Paoli, A, BIANCO, Antonino, PALMA, Antonio, Filingeri, D, Mancuso, EP, Paoli, A, Bianco, A, and Palma, A

Subjects

altitude, exercise, cardio pulmonary adaptations

Abstract

Background. There is increasing popularity among elite athletes to endorse altitude training to enhance performance levels. Altitude training may be used for enhanced performance at sea level, or to acclimatise to a competition at altitude. Enhancement of muscle oxidative capacity, muscle glycolytic capacity, skeletal muscle oxygenation, oxygen transport and storage within the muscle, and hormonal regulation have been reported with altitude training. Aim. The aim of this review is to analyse current knowledge on hypoxic training and its possible relation to enhanced endurance performance. This paper will consider factors including the process of enhanced sea level performance in relation to natural hypoxic exposures to altitude conditions. Methods. A literature search was performed from the years 1968 to 2011 on the electronic databases PUBMED. Key search words included endurance, altitude and performance. Results/Conclusion. This brief review has highlighted the lack of homogeneity in the scientific approach to the evaluation of hypoxic exposure effectiveness in endurance performance. However, relevant performance benefits have been shown in several studies and represent a realistic support in order not to exclude the possibility to implement altitude training in the annual training plan of endurance athletes.

Published

2012

7. A web-based surveillance system on adolescents’ lifestyles and obesity prevention: ASSO-FTB preliminary findings. The ASSO Project

Author

Raccuglia, M, Tabacchi, G, Thomas, Ewan, Filingeri, D, Jemni, M, MAMMINA, Caterina, BIANCO, Antonino, PALMA, Antonio, Raccuglia, M, Tabacchi, G, Thomas, E, Filingeri, D, Mammina, C, Jemni, M, Bianco, A, and Palma, A

Subjects

Settore M-EDF/02 - Metodi E Didattiche Delle Attivita' Sportive, ASSO Project, Surveillance system, Settore MED/42 - Igiene Generale E Applicata

Abstract

In a context where obesity represents a cause of concern in childhood and where there is a lack of standardized data collection systems, ASSO Project (Adolescents and Surveillance System for Obesity prevention), financed by the Italian Ministry of Health, aims to develop a surveillance system structured on adolescents lifestyles. It is a prospective study with online data collection, simultaneous descriptive data analysis and real time report. The ASSO-Toolkit is made of questionnaires, forms and a fitness test battery: ASSO-PIQ (Personal Information Questionnaire);ASSO-PASAQ (Physical Activity, Smoke, Alcohol, Questionnaire); ASSO- FHQ (Food Habits Questionnaire); ASSO-FFQ (Food Frequency Questionnaire); ASSO-BFMF (Body and Fitness Measures Form); ASSO- FTB (Fitness Tests Battery). The aims of this study is to evaluate the predictive validity, the criterion validity and the reliability of ASSOFTB, in other words to assess how well the system operates to meet its obje! ctives. The ASSO-FTB consists of 20mSRT (Shuttle Run Test) to estimate cardiorespiratory fitness, the handgrip strength test and the standing broad jump to assess musculoskeletal fitness, the 4x10mSRT to assess motor fitness and last but not least the sit up test to estimate muscle endurance. Forty male adolescents (17,32 ± 1,0 yrs; 175,3 ± 6,0 cm; 72,4 ± 14,7 kg; waist circ. 86,2 ± 12,4 cm) attending the same secondary school, voluntarily participated to the pilot study. In a school setting, the already standardised procedures were administered by the ASSO-FTB specialist in collaboration with the (PE) teacher. All data collected were updated through the already existing website (www.assoproject.info) and codified by the dedicated ASSO-FTB server. All equipments adopted were selected according to the previous publications (HELENA Study, AVENA Study, FITNESSGRAM and ALPHA Study). Data were analyzed using STATISTICA software, two-tail paired t test, ! two-tail Unpaired t test and Pearson correlation were used when appropriate. Participants were significantly higher in BMI compared to data published by Espana-Romeo et al in 2010. As expected, the maximal isometric strength showed no differences between dx (35,07±7,3 kg) and sx (35,8±4,8 kg) handgrips respectively. The standing broad jump (178,07 ± 26,9 cm) has evinced less distance than Espana-Romeo study (183,4 ± 32,75), p = 0,37. The sit-up test reported a mean value of 44,9 ± 32,8 reps. On the whole findings show that there is a correlation between handgrip and standing broad jump (r = 0.7), underlining that this last test is better indicative of the upper and lower body muscular strength. The trial showed that the FTB-system was structurally simple, low cost, reliable and well accepted by the key partners. At this stage ASSOFTB seems to be able to meet scientific standards. More studies are necessary for the ASSO-toolkit validation. Preliminary results are very encouraging.

Published

2012

8. Effects of a constant and incremental workload training protocol on upper body strenght gains

Author

Vasile Simone, S, Filingeri, D, Gariffo, E, Thomas, Ewan, Moro, T, Paoli, A, BATTAGLIA, Giuseppe, BELLAFIORE, Marianna, BIANCO, Antonino, PALMA, Antonio, Vasile Simone, S, Filingeri, D, Gariffo, E, Thomas, E, Moro, T, Battaglia, G, Bellafiore, M, Paoli, A, Bianco, A, and Palma, A

Subjects

Settore M-EDF/02 - Metodi E Didattiche Delle Attivita' Sportive, workload, strenght

Published

2011

9. Warm temperature stimulus suppresses the perception of skin wetness during initial contact with a wet surface

Author

Filingeri, D., primary, Redortier, B., additional, Hodder, S., additional, and Havenith, G., additional

Published

2014

10. Thermal and tactile interactions in the perception of local skin wetness at rest and during exercise in thermo-neutral and warm environments

Author

Filingeri, D., primary, Redortier, B., additional, Hodder, S., additional, and Havenith, G., additional

Published

2014

11. The effects of vibration during maximal graded cycling exercise: A pilot study

Author

Filingeri D, Monèm Jemni, Bianco A, Zeinstra E, Jimenez A, Filingeri D., Jemni M., Bianco A., Zeinstra E., and Jimenez A.

Subjects

lcsh:Sports, lcsh:GV557-1198.995, Aerobic, lcsh:Sports medicine, lcsh:RC1200-1245, Energetic demand, Vibration, Settore M-EDF/01 - Metodi E Didattiche Delle Attivita' Motorie, Cycloergometer, Research Article, Endurance

Abstract

Whole Body Vibration training is studied and used in different areas, related to sport performance and rehabilitation. However, few studies have investigated the effects of Vibration (Vib) exposure on aerobic performance through the application of this concept to cycling exercise. A specifically designed vibrating cycloergometer, the powerBIKETM, was used to compare the effects of Vib cycling exercise and normal cycling on different physiological parameters during maximal graded exercise test. Twelve recreationally active male adults (25 ± 4.8 yrs; 181.33 ± 5.47 cm; 80.66 ± 11.91 kg) performed two maximal incremental cycling tests with and without Vib in a blockrandomized order. The protocol consisted of a 4 min warm up at 70 rev·min -1 followed by incremental steps of 3 min each. Cycling cadence was increased at each step by 10 rev·min -1 until participants reached their volitional exhaustion. Respiratory gases (VO 2, VCO 2), Heart Rate, Blood Lactate and RPE were collected during the test. Paired t-tests and Correlation Coefficients were used for statistical analysis. A significantly greater (P

12. The use of optimised heating trousers and the role of the blood flow on the reduction in muscle temperature post warm up

Author

Raccuglia M, Alex Lloyd, Filingeri D, Hodder S, and Havenith G

13. Heat risk exacerbation potential for neurology patients during the COVID-19 pandemic and related isolation

Author

Shawnda A. Morrison, Miloš Ajčević, Davide Filingeri, Alex Buoite Stella, Giovanni Furlanis, Nicholas Ravanelli, Paolo Manganotti, Buoite Stella, A., Filingeri, D., Ravanelli, N., Morrison, S. A., Ajcevic, M., Furlanis, G., and Manganotti, P.

Subjects

medicine.medical_specialty, Telemedicine, Atmospheric Science, Neurology, Hot Temperature, 010504 meteorology & atmospheric sciences, Isolation (health care), Exacerbation, Heat illne, Climate change, COVID-19, e-Health, Heat illness, Neurological diseases, Physical distancing, Health, Toxicology and Mutagenesis, Short Communication, Vulnerability, 01 natural sciences, 03 medical and health sciences, Extreme weather, 0302 clinical medicine, medicine, Humans, Intensive care medicine, Pandemics, 0105 earth and related environmental sciences, Aged, 030203 arthritis & rheumatology, Ecology, business.industry, SARS-CoV-2, medicine.disease, Hazard, business, Neurological disease

Abstract

COVID-19 may increase the risk of heat-related symptoms during hot weather since vulnerable populations, including the elderly and those with neurological disabilities, must continue to self-isolate, often indoors. Within the chronic neurological patient population, indoor conditions in summer months present a hazard because of impaired and/or altered thermoregulation, including poor hydration status due to both autonomic and behavioral dysfunction(s). To address this increased risk, telemedicine protocols should include an assessment of the patient's environmental parameters, and when combined with physiological data from wearable devices, identify those with neurological diseases who are at higher risk of heat illness. Personalized medicine during times of self-isolation must be encouraged, and using smart technology in ambient assisted living solutions, including e-health to monitor physiological parameters are highly recommended, not only during extreme weather conditions but also during times of increased isolation and vulnerability.

Published

2020

14. Skin wetness sensitivity across body sites commonly affected by pain in people with migraine

Author

Alex Buoite Stella, Davide Filingeri, Gabriele Garascia, Laura D’Acunto, Giovanni Furlanis, Antonio Granato, Paolo Manganotti, Buoite Stella, A., Filingeri, D., Garascia, G., D'Acunto, L., Furlanis, G., Granato, A., and Manganotti, P.

Subjects

Cross-Sectional Studie, Male, Adult, Migraine Disorders, humidity, Pain, sensory testing, Middle Aged, Prospective Studie, Young Adult, headache, hygrosensation, pain, Cross-Sectional Studies, Female, Humans, Prospective Studies, Skin Temperature, Migraine Disorder, Neurology, Neurology (clinical), Human

Abstract

OBJECTIVE: The objective of this study was to evaluate skin wetness perception and thermal sensitivity in people with migraine and similar healthy controls.BACKGROUND: Environmental triggers, such as cold and humidity, are known triggers for pain in people with migraine. Sensory inputs might be implicated in such heightened responses to cold-humid environments, such that a migraine-induced hypersensitivity to cold wetness could be present in people with migraine. However, we lack empirical evidence on skin thermal and wetness sensitivity across skin sites commonly associated with reported pain in migraine, such as the forehead.METHODS: This prospective cross-sectional observational study, conducted in a university hospital setting, evaluated skin wetness perceptions and thermal sensations to wet non-noxious warm-wet, neutral-wet, and cold-wet stimuli applied to the forehead, the posterior neck, and the index finger pad of 12 patients with migraine (mean and standard deviation for age 44.5 ± 13.2 years, 7/12 [58%] women) and 36 healthy controls (mean and standard deviation for age 39.4 ± 14.6 years, 18/36 [50%] women).RESULTS: On the forehead, people with migraine reported a significantly higher wetness perception than healthy controls across all thermal stimulus (15.1 mm, 95% confidence interval [CI]: 1.8 to 28.5, p = 0.027, corresponding to ~ 15% difference), whereas no significant differences were found on the posterior neck nor on the index finger pad. We found no differences among groups in overall thermal sensations (-8.3 mm, 95% CI: -24.0 to 7.3, p = 0.291; -7.8 mm, 95% CI: -25.3 to 9.7, p = 0.375; and 12.4 mm, 95% CI: -4.0 to 28.9, p = 0.133; forehead, posterior neck, and index finger, respectively).CONCLUSION: These findings indicate that people with migraine have a heightened sensitivity to skin wetness on the forehead area only, which is where pain attacks occur. Future studies should further explore the underlying mechanisms (e.g., TRPM8-mediated cold-wet allodynia) that lead to greater perception of wetness in people with migraine to better understand the role of environmental triggers in migraine.

Published

2022

15. Ageing reduces skin wetness sensitivity across the body

Author

Davide Filingeri, Antonino Bianco, Charlotte Wildgoose, Alessandro Valenza, Alex Buoite Stella, Kaltrina Feka, Wildgoose, Charlotte, Valenza, Alessandro, Buoite Stella, Alex, Feka, Kaltrina, Bianco, Antonino, Filingeri, Davide, Wildgoose, C., Valenza, A., Buoite Stella, A., Feka, K., Bianco, A., and Filingeri, D.

Subjects

Male, skin, Aging, Temperature sensitivity, Sense skin, Physiology, Stimulus (physiology), body temperature regulation, wetness, Physiology (medical), Skin Physiological Phenomena, ageing, thermoreceptors, Medicine, Humans, Thermosensing, Skin wetness, Hydration status, Aged, Skin, Nutrition and Dietetics, integumentary system, business.industry, General Medicine, Index finger, thermoreceptor, medicine.anatomical_structure, Touch Perception, Ageing, Thermoreceptor, business, Skin Temperature

Abstract

New findings What is the central question of this study? Ageing impairs the skin's thermal and tactile sensitivity: does ageing also induce loss of skin wetness sensitivity? What is the main finding and its importance? Older adults show an average 15% loss of skin wetness sensitivity, with this sensory deficit being mediated by a combination of reductions in skin's tactile sensing and hydration status. These findings increase knowledge of wetness sensing mechanisms across the lifespan. Abstract Humans use sensory integration mechanisms to sense skin wetness based on thermal and mechanical cues. Ageing impairs the skin's thermal and tactile sensitivity, yet we lack evidence on whether wetness sensing also changes with ageing. We mapped local skin wetness and temperature sensitivity in response to cold-, neutral- and warm-wet stimuli applied to the forehead, neck, lower back, dorsal foot, index finger and thumb, in 10 Younger (22.4 ± 1.1 years) and 10 Older (58.2 ± 5.1 years) males. We measured local skin temperature and conductance (i.e., a marker of hydration status) at the tested sites, to establish the role of skin's thermal and mechanical parameters in ageing-induced changes in wetness sensing. Irrespective of body site, Older reported overall lower wetness perceptions than Younger across all wet-stimulus temperatures (mean difference: -14.6 mm; 95% CI: -4.3, -24.9; P = 0.008; ∼15% difference). When considering regional wetness sensitivity, the effect of ageing was more pronounced in response to the cold-wet stimulus over the lover back (mean difference Older vs. Younger: -36.8 mm; 95% CI: -68.4, -5.2; P = 0.014; ∼37% difference) and dorsal foot (mean difference: -37.1 mm; 95% CI: -68.7, -5.5; P = 0.013; ∼37% difference). We found no differences between age groups on overall thermal sensations (P = 0.744) nor local skin temperature (P = 0.372); however, we found that Older presented overall lower skin conductance than Younger (mean difference: -1.56 μS; 95% CI: -0.49, -2.62; P = 0.005), which corresponded to an ∼78% reduction in skin hydration. We conclude that skin wetness sensing decreases with ageing primarily due to age-induced changes in skin mechanics and tactile sensitivity.

Published

2021

16. Individualized analysis of skin thermosensory thresholds and sensitivity in heat-sensitive people with multiple sclerosis

Author

Antonino Bianco, Scott L. Davis, Davide Filingeri, Kaltrina Feka, Georgia K. Chaseling, Ollie Jay, Aikaterini Christogianni, Filingeri D., Chaseling G., Christogianni A., Feka K., Bianco A., Davis S.L., and Jay O.

Subjects

medicine.medical_specialty, skin, Physiology, business.industry, Visual analogue scale, Hairy skin, Multiple sclerosis, body Temperature Regulation, Multiple Sclerosis, skin, thermoreceptors, Skin temperature, Audiology, medicine.disease, Priority Report, Heat stress, Heat sensitive, thermoreceptor, Physiology (medical), Multiple Sclerosi, medicine, Thermoreceptor, Patient group, business, body Temperature Regulation, Settore M-EDF/01 - Metodi E Didattiche Delle Attivita' Motorie

Abstract

We investigated whether and how multiple sclerosis (MS) alters thresholds for perceiving increases and decreases in local skin temperature, as well as the sensitivity to progressively greater temperature stimuli, amongst heat-sensitive people with MS. Eleven MS patients (5M/6F; 51.1±8.6 y, EDSS 5.7±1.9) and 11 healthy controls (CTR; 7M/4F; 50.3±9.0 y) performed warm and cold threshold tests on a hairy skin site, on both sides of the body. They also underwent a thermosensitivity test where they rated (visual analogue scale) perceived magnitude of 4 local skin stimuli (i.e. 22, 26, 34, 38°C). Individual thresholds and slopes of linear regression for thermosensitivity were z-transformed for each MS patient, and used to determine individual thermosensory abnormalities. When considering both threshold and thermosensitivity, six out of our 11 heat-sensitive patients (54.5%) exhibited skin thermosensory abnormalities. Those abnormalities varied amongst patients in terms of type (threshold vs. thermosensitivity), quality (warm vs. cold), location (left vs. right side of the body) and extent. Each of those six patients presented unique thermosensory profiles. While some patients experienced thermosensory loss in both thresholds and sensitivity and on both sides of the body, others experienced cold thermosensory loss on one side of the body only. The observed individual variability in thermosensory function among heat-sensitive MS patients highlight the need for a patient-centered approach to assessing thermosensory dysfunction and its potential implications for heat stress vulnerability in this patient group.

Published

2021

17. Independent and interactive effects of thermal stress and mental fatigue on manual dexterity

Author

Harry Charlier, Davide Filingeri, Alessandro Valenza, Antonino Bianco, Valenza A., Charlier H., Bianco A., and Filingeri D.

Subjects

Male, medicine.medical_specialty, Hot Temperature, Time Factors, Physiology, Mental fatigue, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Physical medicine and rehabilitation, Physiology (medical), Physical functional performance, Task Performance and Analysis, medicine, Reaction Time, Humans, Single-Blind Method, Cold-Shock Response, 030229 sport sciences, Hand, Mental Fatigue, Cold Temperature, Interactive effects, Motor Skills, Psychology, 030217 neurology & neurosurgery, Heat-Shock Response

Abstract

Many occupations and sports require high levels of manual dexterity under thermal stress and mental fatigue. Yet, multistressor studies remain scarce. We quantified the interactive effects of thermal stress and mental fatigue on manual dexterity. Seven males (21.1 ± 1.3 yr) underwent six separate 60-min trials characterized by a combination of three air temperatures (hot, 37°C; neutral, 21°C; cold, 7°C) and two mental fatigue states (MF, mental fatigue induced by a 35-min cognitive battery; no-MF, no mental fatigue). Participants performed complex (O’Connor test) and simple (hand-tool test) manual tasks pre- and posttrial to determine stressor-induced performance changes. We monitored participants’ rectal temperature and hand skin temperature (Thand) continuously and assessed the reaction time (hand-click test) and subjective mental fatigue (5-point scale). Thermal stress ( P < 0.0001), but not mental fatigue ( P = 0.290), modulated Thand (heat, +3.3°C [95% CI: +0.2, +6.5]; cold, −7.5°C [−10.7, −4.4]). Mental fatigue ( P = 0.021), but not thermal stress ( P = 0.646), slowed the reaction time (∼10%) and increased subjective fatigue. Thermal stress and mental fatigue had an interactive effect on the complex manual task ( P = 0.040), with cold-no-MF decreasing the performance by −22% [−39, −5], whereas neutral-MF, cold-MF, and heat-MF by −36% [−53, −19], −34% [−52, −17], and −36% [−53, −19], respectively. Only mental fatigue decreased the performance in the simple manual task (−30% [−43, −16] across all thermal conditions; P = 0.002). Cold stress-induced impairments in complex manipulation increase with mental fatigue; yet combined stressors’ effects are no greater than those of mental fatigue alone, which also impairs simple manipulation. Mental fatigue poses a greater challenge to manual dexterity than thermal stress.

Published

2020

18. Thermosensory mapping of skin wetness sensitivity across the body of young males and females at rest and following maximal incremental running

Author

Antonino Bianco, Alessandro Valenza, Davide Filingeri, Valenza A., Bianco A., and Filingeri D.

Subjects

0301 basic medicine, Adult, Male, Hot Temperature, Physiology, Rest, Sensation, Sensory system, Biology, Wetness, Running, 03 medical and health sciences, 0302 clinical medicine, Cutaneous receptor, Physical Stimulation, Skin Physiological Phenomena, Humans, Thermosensing, Sensitivity (control systems), Skin wetness, Exercise, Skin, Body surface area, Sex Characteristics, Foot, Thermoreceptors, Cold Temperature, 030104 developmental biology, Touch Perception, Touch, Thermoreceptor, Body region, Female, Sex, Skin Temperature, 030217 neurology & neurosurgery, Body Temperature Regulation

Abstract

Key points: Humans lack skin receptors for wetness (i.e. hygroreceptors), yet we present a remarkable wetness sensitivity. Afferent inputs from skin cold-sensitive thermoreceptors are key for sensing wetness; yet, it is unknown whether males and females differ in their wetness sensitivity across their body and whether high intensity exercise modulates this sensitivity. We mapped sensitivity to cold, neutral and warm wetness across five body regions and show that females are more sensitive to skin wetness than males, and that this difference is greater for cold than warm wetness sensitivity. We also show that a single bout of maximal exercise reduced the sensitivity to skin wetness (i.e. hygro-hypoesthesia) of both sexes as a result of concurrent decreases in thermal sensitivity. These novel findings clarify the physiological mechanisms underpinning this fundamental human sensory experience. In addition, they indicate sex differences in thermoregulatory responses and will inform the design of more effective sport and protective clothing, as well as thermoregulatory models. Abstract: Humans lack skin hygroreceptors and we rely on integrating cold and tactile inputs from A-type skin nerve fibres to sense wetness. Yet, it is unknown whether sex and exercise independently modulate skin wetness sensitivity across the body. We mapped local sensitivity to cold, neutral and warm wetness of the forehead, neck, underarm, lower back and dorsal foot in 10males (27.8±2.7years; 1.92±0.1m2 body surface area) and 10 females (25.4±3.9years; 1.68±0.1m2 body surface area), at rest and post maximal incremental running. Participants underwent our quantitative sensory test where they reported the magnitude of thermal and wetness perceptions (visual analogue scale) resulting from the application of a cold (5°C below skin temperature) wet (0.8mL of water), neutral wet and warm wet (5°C above skin temperature) thermal probe (1.32cm2) to five skin sites. We found that: (i) females were ∼14% to ∼17% more sensitive to cold-wetness than males, yet both sexes were as sensitive to neutral- and warm-wetness; (ii) regional differences were present for cold-wetness only, and these followed a craniocaudal increase that was more pronounced in males (i.e. the foot was ∼31% more sensitive than the forehead); and (iii) maximal exercise reduced cold-wetness sensitivity over specific regions in males (i.e. ∼40% decrease in foot sensitivity), and also induced a generalized reduction in warm-wetness sensitivity in both sexes (i.e. ∼4% to ∼6%). For the first time, we show that females are more sensitive to cold wetness than males and that maximal exercise induce hygro-hypoesthesia. These novel findings expand our knowledge on sex differences in thermoregulatory physiology.

Published

2019

19. Postural Adaptations in Preadolescent Karate Athletes Due to a One Week Karate Training Camp

Author

Gianluca Salernitano, Stefano Vando, Johnny Padulo, Davide Filingeri, Helmi Chaabene, Calogero Foti, Antonino Bianco, Lucio Maurino, Vando, S, Filingeri, D, Maurino, L, Chaabène, H, Bianco, A, Salernitano, G, Foti, C, and Padulo, J

Subjects

medicine.medical_specialty, Postural sway, Centre of pressure, Physical Therapy, Sports Therapy and Rehabilitation, Physical exercise, Physiology (medical), Post training, Training and testing, medicine, Karate training, training and testing, karate training, centre of pressure, proprioception, physical exercise, postural sway, biology, Body balance, Athletes, business.industry, High intensity, Proprioception, biology.organism_classification, Settore MED/34 - Medicina Fisica e Riabilitativa, Section I – Kinesiology, Closed eyes, Physical therapy, business, Research Article

Abstract

The aim of this study was to investigate the effect of an increasing number of training hours of specific highintensity karate training on postural sway in preadolescent karate athletes. Seventy-four karatekas were randomly assigned to 1 of 2 groups: Karate Group (KG=37): age 10.29±1.68 yrs; or Control Group (CG= 37): age 10.06±1.77 yrs. The KG performed two sessions per day for 1 week in total, while the CG performed only 3 sessions during the same period. The center-of-pressure length (COPL) and velocity (COPV) were recorded under four different experimental conditions: open eyes (EO), closed eyes (EC), open eyes monopodalic left (EOL), open eyes monopodalic right (EOR), pre as well as post training intervention. Post-camp results indicated significant differences between the groups in the COPL p

Published

2013

20. Is karate effective in improving postural control?

Author

Davide Filingeri, Antonio Palma, Antonino Bianco, Daniele Zangla, Antonio Paoli, Filingeri, D, Bianco, A, Zangla, D, Paoli, A, and Palma, A

Subjects

medicine.medical_specialty, biology, Athletes, Key words: balance • performance • karate • body sway • kata • kumite, MEDLINE, Physical Therapy, Sports Therapy and Rehabilitation, Scientific literature, biology.organism_classification, Body sway, Postural control, Physical medicine and rehabilitation, Online search, medicine, Physical therapy, Psychology, Motor skill, Balance (ability)

Abstract

Background: Performing complex motor skills, such as the ones performed by karate athletes, requires a great sense of balance. Because the posturo-kinetic performance seems to be improved by sport practice, especially by sports involving a lot of posturokinetic activities, the aim of this review was to critically analyse the scientific literature in order to appraise whether any positive correlation between karate and improved postural control is scientifically supported. Material/Methods: The online search engines Scirus and Medline were used for generating the data. A comprehensive literature search was conducted based on the following keywords: “karate”, “postural control” and “body sway”. Results were collected and filtered manually. Results: Four articles were identified related to karate practice and postural control, covering a period between 1998 and 2009. Although different experimental approaches were used to investigate this concept, overall the results of these studies confirm the effectiveness of karate in improving postural control. Conclusions: Practicing karate seems to elicit long term improvements in postural control. However, a much deeper approach to this fighting sport, which would take into account its technical specificities (e.g. kata & kumite), is required in order to increase our understanding of the posture-kinetic impact of this relatively unexplored sport activity.

Published

2012

21. The relationship between type 2 diabetes family history, body composition and blood basal glycemia in sedentary people

Author

Francesco Pomara, Davide Filingeri, Antonio Palma, Marianna Bellafiore, Margherita Raccuglia, Antonio Paoli, Antonino Bianco, Giuseppe Battaglia, Bianco, A, Pomara, F, Raccuglia, M, Bellafiore, M, Battaglia, G, Filingeri, D, Paoli, A, and Palma, A

Subjects

Adult, Blood Glucose, Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Physical exercise, Type 2 diabetes, Biology, Young Adult, Endocrinology, Sex Factors, type 2 diabetes, exercise, health, Risk Factors, Internal medicine, Diabetes mellitus, Surveys and Questionnaires, Internal Medicine, medicine, Humans, Family history, Risk factor, Body surface area, Family Health, Type 2 Diabetes Mellitus, General Medicine, Anthropometry, medicine.disease, Diabetes Mellitus, Type 2, Body Composition, Female, Sedentary Behavior

Abstract

The aim of this study was to verify whether there is a positive correlation between family history to type 2 diabetes mellitus and body mass and composition, and alterations in blood basal glycaemia levels in sedentary male and female. Anthropometric variables, blood parameters, body composition and body surface area were evaluated on 183 male and 237 female sedentary individuals. Participants were classified into two groups: FH(+) (family history positive) and FH(-) (familiar history negative) according to their medical history. The FH(+) group showed higher values of body mass and body surface area than FH(-) group. These differences were statistically significant (p < 0.05) for the female subgroup. When compared to the FH(-) group, FH(+) female individuals showed a significantly greater fat mass (p < 0.01) and a significantly lower free fat mass-to-fat mass ratio (FFM/FM ratio) (p < 0.05). FH(+) female individuals showed significant lower levels of basal glucose values for Kg of FFM (p < 0.05), FM (p < 0.01) and BSA (p < 0.01) than FH(-) group. The results of this study indicate that body mass and composition correlate positively to family history to type 2 diabetes. The relationship between family history and body composition is particularly evident in young FH(+) female. Thus, as family history might represent a risk factor for the development of type 2 diabetes, this could be considered as an important parameter able to predict the onset of the disease itself. This knowledge could be used to improve preventive interventions (i.e. increasing levels of physical activity) promoting healthy lifestyle.

Published

2013

22. Monitoring biomarkers during preseason preparation period in professional soccer players

Author

Filingeri, Davide, Proia, Patrizia, Bianco, Antonino, Schiera, Gabriella, Saladino, Patrizia, Pomara, Francesco, Petrucci, Marco, Traina, Marcello, Palma, Antonio, Filingeri, D, Proia, P, Bianco, A, Schiera, G, Saladino, P, Pomara, F, Petrucci, M, Traina, M, and Palma, A

Subjects

education, human activities, creatine kinase, lactic acid dehydrogenase, PPAR?, training period, creatine kinase,lactic acid dehydrogenase,PPAR alpha,training period

Abstract

Aim. The present study aimed at investigating the effect of a 3-week experimental intervention on biomarkers in professional soccer players during the preseason preparation-period. Methods. Eight participants (age 22.5±2.2 yrs) were enrolled in the study. During the physical preparation period players have attended a training program (51,9 hours) planned by coaches of “Equipe-Sicilia-2009”. Results. At rest, the lipid profile, the creatine kinase (CK), the lactic-acid dehydrogenase (LDH) and the expression of nuclear receptors peroxisome-proliferator-activated receptors (PPAR α/γ) were analyzed before starting and after 3 weeks of training sessions. The plasma level of CK in our samples showed great variability already in the baseline: value was on average nearly 500 IU/l showed that a large amount of these athletes were a high responders. The CK level decreased (pConclusion. We retain that those basal biomarkers, except CK, might not be an effective support for coaches to better understand training adaptations and overreaching mechanisms during a 3-week of preseason preparation-period. More studies are necessary to confirm these results., Italian Journal of Anatomy and Embryology, Vol 116, No 1 (Supplement) 2011

Published

2011

23. The effect of female breast surface area on skin stiffness and tactile sensitivity at rest and following exercise in the heat.

Author

Blount H, Valenza A, Ward J, Caggiari S, Worsley PR, and Filingeri D

Subjects

Humans, Female, Adult, Young Adult, Skin Physiological Phenomena, Skin, Exercise physiology, Breast physiology, Hot Temperature, Rest physiology, Touch physiology

Abstract

Female development includes significant morphological changes across the breast. Yet, whether differences in breast surface area (BrSA) modify breast skin stiffness and tactile sensitivity at rest and after exercise in the heat remain unclear. We investigated the relationship between BrSA and skin stiffness and tactile sensitivity in 20 young to middle-aged women (27 ± 8 years of age) of varying breast sizes (BrSA range: 147-502 cm 2 ) at rest and after a submaximal run in a warm climatic chamber (32 C ${\mathrm{C}}$  ±  0 . 6 C ; ${\mathrm{0}}{\mathrm{.6C;}}$ 53% ± 1.7% relative humidity). Skin stiffness above and below the nipple and tactile sensitivity from the nipple down were measured. Associations between BrSA and both skin stiffness and tactile sensitivity at rest were determined via correlation analyses. Effects of exercise and test site were assessed by a two-way ANOVA. Skin stiffness was positively correlated with BrSA 3 cm above the areola edge (r = 0.61, P = 0.005) and at the superior areola border (r = 0.54, P = 0.016), but not below the nipple (P > 0.05). The area 3 cm below the areola was also significantly stiffer than all other test sites (P < 0.043). Tactile sensitivity did not vary with BrSA (P > 0.09), but it varied across the breast (i.e., the area 3 cm below the areola was more sensitive than the inferior areola edge; P = 0.018). Skin stiffness and tactile sensitivity across the breast decreased after exercise by ∼37% (P < 0.001) and ∼45% (P = 0.008), respectively. These findings expand our fundamental understanding of the mechanosensory properties of the female breast, and they could help to inform sportswear innovation to better meet the support needs of women of different breast sizes at rest and following exercise., (© 2024 The Author(s). Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2024

24. The effect of female breast surface area on heat-activated sweat gland density and output.

Author

Blount H, Valenza A, Ward J, Caggiari S, Worsley PR, and Filingeri D

Subjects

Humans, Female, Adult, Young Adult, Body Temperature Regulation physiology, Sweating physiology, Sweat Glands physiology, Breast physiology, Hot Temperature

Abstract

Female development includes significant morphological changes across the breast. Yet, whether differences in breast surface area (BrSA) modify sweat gland density and output remains unclear. The present study investigated the relationship between BrSA and sweat gland density and output in 22 young to middle-aged women (28 ± $\ \pm \ $ 10 years) of varying breast sizes (BrSA range: 147-561 cm 2 ) during a submaximal run in a warm environment (32  ± $ \pm \ $ 0.6°C; 53  ± $ \pm \ $ 1.7% relative humidity). Local sweat gland density and local sweat rate (LSR) above and below the nipple and at the bra triangle were measured. Expired gases were monitored for the estimation of evaporative requirements for heat balance (E req , in W/m 2 ). Associations between BrSA and (i) sweat gland density; (ii) LSR; and (iii) sweat output per gland for the breast sites were determined via correlation and regression analyses. Our results indicated that breast sweat gland density decreased linearly as BrSA increased (r = -0.76, P < 0.001), whereas sweat output per gland remained constant irrespective of BrSA (r = 0.29, P = 0.28). This resulted in LSR decreasing linearly as BrSA increased (r = -0.62, P = 0.01). Compared to the bra triangle, the breast had a 64% lower sweat gland density (P < 0.001), 83% lower LSR (P < 0.001) and 53% lower output per gland (P < 0.001). BrSA (R 2  = 0.33, P = 0.015) explained a greater proportion of variance in LSR than E req (in W/m 2 ) (R 2  = 0.07, P = 0.538). These novel findings extend the known relationship between body morphology and sweat gland density and LSR, to the female breast. This knowledge could innovate user-centred design of sports bras by accommodating breast size-specific needs for sweat management, skin wetness perception and comfort., (© 2024 The Author(s). Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2024

25. High-density thermal sensitivity maps of the body of people with multiple sclerosis: Implications for inclusive personal comfort systems.

Author

Christogianni A, Bibb R, and Filingeri D

Subjects

Humans, Female, Male, Middle Aged, Adult, Skin Temperature, Multiple Sclerosis physiopathology, Thermosensing

Abstract

Inclusive thermal comfort solutions should accommodate the need of clinical groups such as people with Multiple Sclerosis (pwMS), who experience abnormal thermal sensitivity. The aim of this study was to develop high-density body maps of temperature sensitivity in pwMS to inform the design of patient-centred personal comfort systems. Fourteen pwMS (6 M/8 F; 48.6 ± 10.0 y) and 13 healthy individuals (CTR; 5 M/8 F; 47.8 ± 10.4) underwent a quantitative sensory test in a thermoneutral environment, during which they rated their local thermal sensations arising from the application of warm (39°C) and cold (27°C) stimuli to 115 bilateral body sites across the face, torso, upper and lower limbs. We used a z-transformation to create maps of hypo- and hyper-sensitivity for each individual MS participant using normative CTR data. We found that 50% of pwMS (N = 7/14) presented a loss of cold sensitivity over the upper limb, and a loss of warm sensitivity over the feet. Furthermore, 36% of pwMS (N = 5) presented warm hyper-sensitivity over the upper limb. Finally, cold sensitivity loss and warm sensitivity gain were more evenly distributed and affected a greater proportion of skin sites in MS (i.e. cold hypo-sensitivity = 44% of tested sites; warm hyper-sensitivity = 14%) than warm sensitivity loss (i.e. 10%), which was more focused on sites such as the feet. Our findings highlight the need to consider "thermosensory corrective power" when designing personal comfort systems, to accommodate either thermosensory loss or gain in pwMS. Our approach to clinical body mapping may support this process and help meeting the unique thermal needs of vulnerable individuals., Competing Interests: Declaration of competing interest The authors report no conflict of interest., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

26. Bromodomain Protein Inhibition Protects β-Cells from Cytokine-Induced Death and Dysfunction via Antagonism of NF-κB Pathway.

Author

Negi V, Lee J, Mandi V, Danvers J, Liu R, Perez-Garcia EM, Li F, Jagannathan R, Yang P, Filingeri D, Kumar A, Ma K, Moulik M, and Yechoor VK

Subjects

Animals, Mice, Diabetes Mellitus, Experimental pathology, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Type 1 metabolism, Diabetes Mellitus, Type 1 pathology, Forkhead Box Protein O1 metabolism, Mice, Inbred NOD, Male, Mice, Inbred C57BL, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Insulin-Secreting Cells pathology, NF-kappa B metabolism, Cytokines metabolism, Signal Transduction drug effects, Apoptosis drug effects

Abstract

Cytokine-induced β-cell apoptosis is a major pathogenic mechanism in type 1 diabetes (T1D). Despite significant advances in understanding its underlying mechanisms, few drugs have been translated to protect β-cells in T1D. Epigenetic modulators such as bromodomain-containing BET (bromo- and extra-terminal) proteins are important regulators of immune responses. Pre-clinical studies have demonstrated a protective effect of BET inhibitors in an NOD (non-obese diabetes) mouse model of T1D. However, the effect of BET protein inhibition on β-cell function in response to cytokines is unknown. Here, we demonstrate that I-BET, a BET protein inhibitor, protected β-cells from cytokine-induced dysfunction and death. In vivo administration of I-BET to mice exposed to low-dose STZ (streptozotocin), a model of T1D, significantly reduced β-cell apoptosis, suggesting a cytoprotective function. Mechanistically, I-BET treatment inhibited cytokine-induced NF-kB signaling and enhanced FOXO1-mediated anti-oxidant response in β-cells. RNA-Seq analysis revealed that I-BET treatment also suppressed pathways involved in apoptosis while maintaining the expression of genes critical for β-cell function, such as Pdx1 and Ins1. Taken together, this study demonstrates that I-BET is effective in protecting β-cells from cytokine-induced dysfunction and apoptosis, and targeting BET proteins could have potential therapeutic value in preserving β-cell functional mass in T1D.

Published

2024

27. A case report on the physiological responses to extreme heat during Sicily's July 2023 heatwave.

Author

Filingeri D, Valenza A, Ficarra S, Filingeri V, Worsley PR, and Bianco A

Subjects

Humans, Male, Adult, Sicily, Sweating physiology, Body Temperature physiology, Body Temperature Regulation physiology, Skin Temperature physiology, Hot Temperature adverse effects, Heart Rate physiology, Extreme Heat adverse effects

Abstract

July 2023 has been confirmed as Earth's hottest month on record, and it was characterized by extraordinary heatwaves across southern Europe. Field data collected under real heatwave periods could add important evidence to understand human adaptability to extreme heat. However, field studies on human physiological responses to heatwave periods remain limited. We performed field thermo-physiological measurements in a healthy 37-years male undergoing resting and physical activity in an outdoor environment in the capital of Sicily, Palermo, during (July 21; highest level of local heat-health alert) and following (August 10; lowest level of local heat-health alert) the peak of Sicily's July 2023 heatwave. Results indicated that ~40 min of outdoor walking and light running in 33.8°C Wet Bulb Globe Temperature (WBGT) conditions (July 21) resulted in significant physiological stress (i.e., peak heart rate: 209 bpm; core temperature: 39.13°C; mean skin temperature: 37.2°C; whole-body sweat losses: 1.7 kg). Importantly, significant physiological stress was also observed during less severe heat conditions (August 10; WBGT: 29.1°C; peak heart rate: 190 bpm; core temperature: 38.48°C; whole-body sweat losses: 2 kg). These observations highlight the physiological strain that current heatwave conditions pose on healthy young individuals. This ecologically-valid empirical evidence could inform more accurate heat-health planning., (© 2024 The Author(s). Physiological Reports published by Wiley Periodicals LLC on behalf of The Physiological Society and the American Physiological Society.)

Published

2024

28. An evaluation of the effects of localised skin cooling on microvascular, inflammatory, structural, and perceptual responses to sustained mechanical loading of the sacrum: A study protocol.

Author

Gordon RJFH, Worsley PR, and Filingeri D

Subjects

Humans, Adult, Male, Female, Middle Aged, Young Adult, Inflammation, Spinal Cord Injuries physiopathology, Cold Temperature, Aged, Microvessels physiopathology, Weight-Bearing, Skin Temperature, Skin blood supply, Sacrum

Abstract

This study protocol aims to investigate how localised cooling influences the skin's microvascular, inflammatory, structural, and perceptual tolerance to sustained mechanical loading at the sacrum, evaluating factors such as morphology, physiology, and perceptual responses. The protocol will be tested on individuals of different age, sex, skin tone and clinical status, using a repeated-measure design with three participants cohorts: i) young healthy (n = 35); ii) older healthy (n = 35); iii) spinal cord injured (SCI, n = 35). Participants will complete three testing sessions during which their sacrum will be mechanically loaded (60 mmHg; 45 min) and unloaded (20 min) with a custom-built thermal probe, causing pressure-induced ischemia and post-occlusive reactive hyperaemia. Testing sessions will differ by the probe's temperature, which will be set to either 38°C (no cooling), 24°C (mild cooling), or 16°C (strong cooling). We will measure skin blood flow (via Laser Doppler Flowmetry; 40 Hz); pro- and anti-inflammatory biomarkers in skin sebum (Sebutape); structural skin properties (Optical Coherence Tomography); and ratings of thermal sensation, comfort, and acceptance (Likert Scales); throughout the loading and unloading phases. Changes in post-occlusive reactive hyperaemia will be considered as the primary outcome and data will be analysed for the independent and interactive effects of stimuli's temperature and of participant group on within- and between-subject mean differences (and 95% Confidence Intervals) in peak hyperaemia, by means of a 2-way mixed model ANOVA (or Friedman). Regression models will also be developed to assess the relationship between absolute cooling temperatures and peak hyperaemia. Secondary outcomes will be within- and between-subject mean changes in biomarkers' expression, skin structural and perceptual responses. This analysis will help identifying physiological and perceptual thresholds for the protective effects of cooling from mechanically induced damage underlying the development of pressure ulcers in individuals varying in age and clinical status., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Gordon et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

29. Female thermal sensitivity and behaviour across the lifespan: A unique journey.

Author

Filingeri D, Blount H, and Valenza A

Abstract

Women are a group of individuals that undergo unique anatomical, physiological and hormonal changes across the lifespan. For example, consider the impact of the menstrual cycle, pregnancy and menopause, all of which are accompanied by both short- and long-term effects on female body morphology (e.g., changes in breast size) and temperature regulation, heat tolerance, thermal sensitivity and comfort. However, empirical evidence on how skin thermal and wetness sensitivity might change across the lifespan of women, and the implications that this has for female-specific thermal behaviours, continues to be lacking. This paper is based on a symposium presentation given at Physiology 2023 in Harrogate, UK. It aims to review new evidence on anatomical and physiological mechanisms underpinning differences in skin thermal and wetness sensitivity amongst women varying in breast size and age, in addition to their role in driving female thermal behaviours. It is hoped that this brief overview will stimulate the development of testable hypotheses to increase our understanding of the behavioural thermal physiology of women across the lifespan and at a time of climate change., (© 2024 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2024

30. Thermal physiology is a (wo)man's world!

Author

Filingeri D, Blount H, and Ward J

Subjects

Humans, Male, Body Temperature Regulation, Sweating

Published

2024

31. A retrospective review of the rate of sexually transmitted infections in adolescents after universal screening protocol implementation in an urban United States clinic.

Author

Tirone A, Maule L, Huang J, Higgins J, Walsh T, Filingeri D, Songveera A, Poh C, and Henderson AN

Abstract

Objective: Despite expanded guidelines, adolescent gonorrhea and chlamydia (GC/CT) screening rates remain low due to multiple psychosocial barriers and biases. This intervention aimed to improve screening and diagnosis rates at adolescent well visits by establishing a streamlined universal screening protocol for all patients ages 13-18 years old., Methods: A universal sexually transmitted infection (STI) screening approach was introduced at an urban clinic affiliated with an academic medical center near Philadelphia, Pennsylvania (PA) in September 2018 for all adolescent well-visits. GC/CT screening and diagnosis rates were compared two years prior to and two years after implementation, deemed the baseline and intervention groups, respectively., Results: In total, 1,168 encounters were included for analysis. The patient cohort consisted of 47% females, with an average age of 15, and were predominantly publicly insured (79%). STI screening rates increased significantly from 16.7% (89/534) to 83.6% (530/634) of adolescents with implementation of the universal screening protocol. Furthermore, there was a 1.6-fold increase in total positive cases detected after implementation of ok universal screening., Conclusion: This study demonstrates improved adolescent GC/CT capture rates by establishing a universal screening protocol and highlights a streamlined means of implementation in virtually any pediatric clinic. Limitations include sample size, as this is a single academic practice, as well as any issues with lab collection and results reporting., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

32. A bioengineering investigation of cervical collar design and fit: Implications on skin health.

Author

Russell LJ, Dodd T, Kendall D, Lazenbury A, Leggett A, Payton-Haines S, Jiang L, Filingeri D, and Worsley PR

Subjects

Humans, Splints, Neck, Cervical Vertebrae injuries, Bioengineering, Immobilization adverse effects, Pressure Ulcer prevention & control, Pressure Ulcer etiology

Abstract

Background: Cervical collars restrict cervical spine movement to minimise the risk of spinal cord injury. Collars apply mechanical loading to the skin putting it at risk of skin damage. Indeed, cervical collar-related pressure ulcers are unacceptably prevalent, especially at the occiput, mandibles, and chin. Collar design and fit are often key considerations for prevention., Methods: This comprehensive study evaluated four commercial prehospital and acute care cervical collars. Pressure, microclimate, transepidermal water loss and skin hydration were measured at the interface between the device and the skin. Range of motion restriction was measured to evaluate effective immobilisation. Head, neck, and shoulder morphology was evaluated using three-dimensional scans., Findings: The occiput experienced significantly higher interface pressures than the chin and mandibles for most collar designs. Interface pressure at the occiput was significantly higher for the Stiffneck extrication collar compared to the other collar designs. The Stiffneck collar also provided the most movement restriction, though not significantly more than other designs. Relative humidity at the device skin interface was significantly higher for the Stiffneck and Philadelphia collars corresponding to closed cell foam padding, in contrast to the open cell foams lined with permeable fabric used in the other collars. Collar discomfort correlated with both occipital pressure and skin humidity., Interpretation: The occiput is at increased risk of cervical collar-related pressure ulcers during supine immobilisation, especially for Stiffneck extrication collars. Lined open-cell foams could be used to minimise skin humidity and increase comfort., Competing Interests: Declaration of competing interest The authors declare that they have no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

33. Biophysical, thermo-physiological and perceptual determinants of cool-seeking behaviour during exercise in younger and older women.

Author

Valenza A, Blount H, Bianco A, Worsley PR, and Filingeri D

Subjects

Humans, Female, Aged, Skin Temperature, Sweating, Skin, Hot Temperature, Body Temperature Regulation physiology, Exercise physiology

Abstract

Women continue to be under-represented in thermoregulatory research despite their undergoing unique physiological changes across the lifespan. This study investigated the biophysical, thermo-physiological, and perceptual determinants of cool-seeking behaviour during exercise in younger and older women. Eleven younger (25 ± 5 years; 1.7 ± 0.1 m; 63.1 ± 5.2 kg) and 11 older women (53 ± 6 years; 1.7 ± 0.1 m; 65.4 ± 13.9 kg) performed a 40-min incremental cycling test in a thermoneutral environment (22 ± 1.7°C; 36 ± 4% relative humidity). Throughout the test, participants freely adjusted the temperature of a cooling probe applied to their wrists to offset their thermal discomfort. We continuously recorded the probe-wrist interface temperature to quantify participants' cool-seeking behaviour. We also measured changes in participants' rate of metabolic heat production, core and mean skin temperatures, and skin wetness. Finally, we body-mapped participants' skin heat, cold and wetness sensitivity. Our results indicated that: (1) older and younger women exhibited similar onset and magnitude of cool-seeking behaviour, despite older women presented reduced autonomic heat-dissipation responses (i.e., whole-body sweat losses); (2) older women's thermal behaviour was less determined by changes in core temperature (this being a key driver in younger women), and more by changes in multiple thermo-physiological and biophysical parameters (i.e., physical skin wetness, temperature and heat production); (3) older women did not present lower regional skin thermal and wetness sensitivity than younger women. We conclude that predictions of female cool-seeking behaviours based on thermo-physiological variables should consider the effects of ageing. These findings are relevant for the design of wearable cooling systems and sports garments that meet the thermal needs of women across the lifespan., (© 2023 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2024

34. A novel GK Ala469Val variant resulting in glycerol kinase deficiency with concurrent hepatoblastoma: A case report.

Author

Filingeri D, Mackey S, Soller H, Guarneri-Tragone A, Cooper J, Escobar O, and Bedoyan JK

Abstract

Glycerol kinase deficiency (GKD) is a rare X-linked condition where glycerol cannot be phosphorylated to glycerol-3-phosphate, a key component of gluconeogenesis. Clinical presentation varies widely. We present a novel variant of the responsible GK in a patient with concurrent hepatoblastoma, whose course was complicated by hypoglycemia. Hepatoblastoma has not previously been described with GKD, highlighting the need for further research into GKD and its potential role in the pathogenesis of some forms of hepatoblastoma., Competing Interests: None., (©2024TheAuthors.PublishedbyElsevierInc.)

Published

2024

35. The characterization of thermal perception in recreational surfers wearing wetsuits.

Author

Warner M, Nessler JA, Filingeri D, and Newcomer SC

Subjects

Humans, Male, Female, Skin Temperature, Cold Temperature, Body Temperature Regulation, Perception, Sports

Abstract

The purpose of this study was to characterize the perception of heat loss, comfort, and wetness in recreational surfers wearing wetsuits, to compare these data with changes in skin temperature reported in prior studies, and to examine the impact of wetsuit thickness, zipper location, and accessory use on thermal sensation and comfort. Following their surf session, nine-hundred and three male (n = 735) and female (n = 168) recreational surfers responded to a series of questions regarding thermal comfort/sensation, wetsuit characteristics, and surfing history. Average whole body thermal sensation rating was 0.8 ± 3.6 on a scale of -10 to +10 and average whole body thermal comfort rating was 1.5 ± 1.2, midway between "just comfortable" and "comfortable." Overall, surfers felt coldest in their feet, hands, and head. Under their wetsuits, surfers felt the coldest, wettest, and least comfortable in their chest, lower legs, lower arms, and upper back. Wetsuit accessory use had the greatest impact on regions identified as coldest, least comfortable, and wettest. These data suggest that wetsuit design should focus on optimizing water access points and improving accessories for the feet, hands, and head., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

36. The Effects of Incontinence Pad Application on Loaded Skin With Reference to Biophysical and Biochemical Parameters: An Exploratory Cohort Study Using a Repeated-Measures Design.

Author

Abiakam NS, Jayabal H, Abbas S, Filingeri D, Bader DL, and Worsley PR

Subjects

Humans, Female, Adult, Middle Aged, Male, Cohort Studies, Erythema, Biomarkers, Incontinence Pads, Skin

Abstract

Purpose: The purpose of this study was to evaluate temporal changes in skin responses following exposure to moisture alone or moisture in combination with mechanical loading., Design: Comparison cohort with a repeated-measures design., Subjects and Settings: The sample comprised 12 healthy volunteers. Participants were purposely sampled from 2 different age groups; half were 32 to 39 years old and half were 50 to 62 years old. Participants identified as White, Black, or mixed; 83% (n = 10) identified as White; 8 (67%) were female., Methods: Four sites at the sacrum were challenged with the application of specimens taken from 2 absorbent products; the pad specimens were applied dry or saturated with synthetic urine (SU; pH = 8); a further site from the sacral skin was also selected and used as a control. Skin assessments were performed at different points in time: (1) 60 minutes after exposure to dry or SU-saturated pad specimens; (2) 60 minutes after exposure to pads and mechanical loading (application of pressure in the form of 45°C high sitting); and (3) 30 minutes after removal of all pads (recovery period). Outcome measures were transepidermal water loss (TEWL), stratum corneum (SC) hydration, erythema, pH, and skin inflammatory biomarkers measured at each of the time points described earlier., Results: The control site and those exposed to dry pads showed minimal time-dependent changes irrespective of the parameter investigated. In contrast, significant increases in TEWL (P = .0000007) and SC hydration responses (P = .0000007) were detected at the sites under absorbent pad specimens after saturation with SU (exposure to moisture). In some participants, TEWL and SC hydration parameters were significantly higher during pressure application. Skin pH remained in the mildly acidic range throughout the test session, and no consistent trends were observed with erythema. Skin inflammatory biomarkers also exhibited considerable variability across participants; none changed significantly over time. Significant differences (P = .02) were also detected following the exposure of moisture in combination with pressure., Conclusion: We evaluated an array of parameters to identify changes following skin exposure to 2 absorbent pads in the presence and absence of SU and mechanical loading. Analysis revealed changes in skin barrier properties in the presence of moisture and/or pressure. This observation suggests a need for frequent pad changing as well as periods of skin off-loading to protect the skin health of individuals with incontinence., Competing Interests: Disclosures: Shabira Abbas is a senior scientist at Essity AB. The other authors have no conflicts of interest., (Copyright © 2023 by the Wound, Ostomy and Continence Nurses Society.)

Published

2023

37. Spatial and temporal changes in biophysical skin parameters over a category I pressure ulcer.

Author

Abiakam NS, Jayabal H, Filingeri D, Bader DL, and Worsley PR

Subjects

Female, Humans, Skin, Epidermis, Water, Suppuration, Pressure Ulcer diagnosis

Abstract

In acute care facilities, the detection of pressure ulcers (PUs) relies on visual and manual examination of the patient's skin, which has been reported to be inconsistent and may lead to misdiagnosis. In skin and wound research, various biophysical parameters have been extensively employed to monitor changes in skin health. Nonetheless, the transition of these measures into care settings as part of a routine clinical assessment has been limited. This study was designed to examine the spatial and temporal changes in skin biophysical parameters over the site of a category I PU, in a cohort of hospitalised patients. Thirty patients, each presenting with a category I PU, were enrolled in the study. Skin integrity was assessed at the PU-compromised site and two adjacent areas (5 and 10 cm away). Data was collected over three sessions to examine both temporal differences and longitudinal changes. Skin integrity was assessed using two biophysical parameters, namely, transepidermal water loss (TEWL) and stratum corneum (SC) hydration. In addition, the influence of intrinsic factors, namely, incontinence and mobility status, on the parameters was evaluated. TEWL values at the sites compromised by PU were statistically significantly greater (P < .001) than corresponding values at the adjacent control sites at 5 and 10 cm, which were consistent with a normative range (<20 g/h/m 2 ). By contrast, SC hydration values did not reveal clear distinctions between the three sites, with high inter-patient variation detected at the sites. Nevertheless, individual profiles were consistent across the three sessions, and the PU site was observed to be either abnormally dry or overhydrated in different individuals. No consistent temporal trend in either parameter was evident. However, intrinsic factors were shown to influence the parameters, with females, bedridden and incontinent patients presenting significantly higher TEWL and SC hydration values (P < .05). TEWL was able to identify differences in skin responses at skin sites compromised with a category I PU when compared to healthy adjacent skin sites. Accordingly, this parameter could be included in the clinical assessment for the identification of PU risk. Further studies are required to elucidate the role of hydration and skin barrier function in the development of PUs and their ability to monitor temporal changes in skin integrity., (© 2023 The Authors. International Wound Journal published by Medicalhelplines.com Inc and John Wiley & Sons Ltd.)

Published

2023

38. Thermal modulation of skin friction at the finger pad.

Author

Valenza A, Rykaczewski K, Martinez DM, Bianco A, Caggiari S, Worsley P, and Filingeri D

Subjects

Young Adult, Humans, Friction, Cold Temperature, Fingers, Skin, Bone Plates

Abstract

Preliminary human studies show that reduced skin temperature minimises the risk of mechanically induced skin damage. However, the mechanisms by which cooling enhances skin tolerance to pressure and shear remain poorly understood. We hypothesized that skin cooling below thermo-neutral conditions will decrease kinetic friction at the skin-material interface. To test our hypothesis, we measured the friction coefficient of a thermally pre-conditioned index finger pad sliding at a normal load (5N) across a plate maintained at three different temperatures (38, 24, and 16 °C) in 8 healthy young adults (29±5y). To quantify the temperature distribution of the skin tissue, we used 3D surface scanning and Optical Coherence Tomography to develop an anatomically representative thermal model of the finger. Our group-level data indicated that the sliding finger with thermally affected tissues (up to 8 mm depth) experienced significantly lower frictional forces (p<0.01) at plate temperatures of 16 °C (i.e. 32% decrease) and 24 °C (i.e. 13% decrease) than at 38 °C, respectively. This phenomenon occurred consistently across participants (i.e. N = 6/8, 75%) and without large changes in skin hydration during sliding. Our complementary experimental and theoretical results provide new insights into thermal modulation of skin friction that can be employed for developing thermal technologies to maintain skin integrity under mechanical loading and shearing., Competing Interests: Declaration of competing interest We declare we have no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

39. The visual perception of wetness: Multisensory integration of visual and tactile stimuli.

Author

Merrick C, Rosati R, and Filingeri D

Subjects

Humans, Visual Perception

Abstract

A multitude of sensory modalities are involved in humans' experience of wetness, yet we know little of the integratory role of vision. Therefore, the aim was to quantify the effect of physical stain volume, chroma and size on wetness perception, and to compare wetness perception under different sensory conditions, including visuotactile and visual only interactions. Eighteen participants visually observed and/or used their index fingerpad to dynamically interact with stimuli varying in physical wetness (0, 2.16 × 10 -4 or 3.45 × 10 -4  ml mm -2 ), stain chroma (clear, light, dark) and stain size (1150 or 5000 mm 2 ). After interaction participants rated wetness perception using a visual analogue scale (very dry to very wet). In visual only conditions participants were able to differentiate between dry and wet stimuli, and could also discriminate between different magnitudes of wetness with the addition of tactile cues. In both visual only and visuotactile conditions greater stain chroma resulted in increased wetness perception. Stain size did not have a significant effect in either condition. These results show that visual cues influence wetness perception ( R 2  = 0.29), but indicate that visual dominance does not apply in these sensory integrations. Findings are relevant for the design of products with wetness management properties.

Published

2023

40. Inflammatory biomarkers in sebum for identifying skin damage in patients with a Stage I pressure ulcer in the pelvic region: A single centre observational, longitudinal cohort study with elderly patients.

Author

Jayabal H, Abiakam NS, Filingeri D, Bader DL, and Worsley PR

Subjects

Humans, Aged, Interleukin 1 Receptor Antagonist Protein, Interleukin-8, Longitudinal Studies, Sebum, Cytokines, Cohort Studies, Biomarkers, Pelvis, Granulocyte Colony-Stimulating Factor, Pressure Ulcer diagnosis

Abstract

Pressure Ulcers (PU) are a major burden for affected patients and healthcare providers. Current detection methods involve visual assessments of the skin by healthcare professionals. This has been shown to be subjective and unreliable, with challenges associated with identifying erythema in darker colour skin. Although there exists a number of promising non-invasive biophysical techniques such as ultrasound, capacitance measurements, and thermography, the present study focuses on directly measuring the changes in the inflammatory status of the skin and underlying tissues. Therefore, in this study, we aim to analyse inflammatory cytokines collected through non-invasive sampling techniques to detect early signs of skin damage. Thirty hospitalised patients presenting with Stage I PU were recruited to evaluate the inflammatory response of skin at the site of damage and an adjacent healthy control site. Sebutapes were collected over three sessions to investigate the temporal changes in the inflammatory response. The panel of cytokines investigated included high-abundance cytokines, namely, IL-1α and IL-1RA, and low abundance cytokines; IL-6, IL-8, TNF-α, INF-γ, IL-33, IL-1β and G-CSF. Spatial and temporal differences between sites were assessed and thresholds were used to determine the sensitivity and specificity of each biomarker. The results suggest significant (P < .05) spatial changes in the inflammatory response, with upregulation of IL-1α, IL-8, and G-CSF as well as down-regulation of IL-1RA over the Stage I PU compared with the adjacent control site. There were no significant temporal differences between the three sessions. Selected cytokines, namely, IL-1α, IL-1RA, IL-8, G-CSF, and the ratio IL-1α/IL-1RA offered clear delineation in the classification of healthy and Stage-I PU skin sites, with receiver operating characteristic curves demonstrating high sensitivity and specificity. There were limited influences of intrinsic and extrinsic factors on the biomarker response. Inflammatory markers provided a high level of discrimination between the sites presenting with Stage I PU and an adjacent healthy skin site, in a cohort of elderly inpatients. Indeed, the ratio of IL-1α to IL-1RA provided the highest sensitivity and specificity, indicative that inflammatory homeostasis is affected at the PU site. There was a marginal influence of intrinsic and extrinsic factors, demonstrating the localised effects of the inflammation. Further studies are required to investigate the potential of inflammatory cytokines incorporated within Point of Care technologies, to support routine clinical use., (© 2023 The Authors. International Wound Journal published by Medicalhelplines.com Inc and John Wiley & Sons Ltd.)

Published

2023

41. Optimization of Spatial and Temporal Configuration of a Pressure Sensing Array to Predict Posture and Mobility in Lying.

Author

Caggiari S, Jiang L, Filingeri D, and Worsley P

Subjects

Humans, Neural Networks, Computer, Beds, Healthy Volunteers, Posture, Pressure Ulcer

Abstract

Commercial pressure monitoring systems have been developed to assess conditions at the interface between mattress/cushions of individuals at risk of developing pressure ulcers. Recently, they have been used as a surrogate for prolonged posture and mobility monitoring. However, these systems typically consist of high-resolution sensing arrays, sampling data at more than 1 Hz. This inevitably results in large volumes of data, much of which may be redundant. Our study aimed at evaluating the optimal number of sensors and acquisition frequency that accurately predict posture and mobility during lying. A continuous pressure monitor (ForeSitePT, Xsensor, Calgary, Canada), with 5664 sensors sampling at 1 Hz, was used to assess the interface pressures of healthy volunteers who performed lying postures on two different mattresses (foam and air designs). These data were down sampled in the spatial and temporal domains. For each configuration, pressure parameters were estimated and the area under the Receiver Operating Characteristic curve (AUC) was used to determine their ability in discriminating postural change events. Convolutional Neural Network (CNN) was employed to predict static postures. There was a non-linear decline in AUC values for both spatial and temporal down sampling. Results showed a reduction of the AUC for acquisition frequencies lower than 0.3 Hz. For some parameters, e.g., pressure gradient, the lower the sensors number the higher the AUC. Posture prediction showed a similar accuracy of 63-71% and 84-87% when compared to the commercial configuration, on the foam and air mattress, respectively. This study revealed that accurate detection of posture and mobility events can be achieved with a relatively low number of sensors and sampling frequency.

Published

2023

42. Body temperatures, thermal comfort, and neuropsychological responses to air temperatures ranging between 12°C and 39°C in people with Multiple Sclerosis.

Author

Christogianni A, Bibb R, and Filingeri D

Subjects

Male, Female, Humans, Adult, Middle Aged, Temperature, Cold Temperature, Hot Temperature, Fatigue, Skin Temperature, Body Temperature Regulation physiology, Body Temperature, Multiple Sclerosis complications

Abstract

The negative effects of thermal stress on Multiple Sclerosis (MS)' symptoms have long been known. However, the underlying mechanisms of MS heat and cold intolerance remain unclear. The aim of this study was to evaluate body temperatures, thermal comfort, and neuropsychological responses to air temperatures between 12 and 39 °C in people with MS compared to healthy controls (CTR). Twelve MS (5 males/7 females; age: 48.3 ± 10.8 years; EDSS range: 1-7) and 11 CTR participants (4 males /7 females; age: 47.5 ± 11.3 years) underwent two 50-min trials in a climatic chamber. Air temperature was ramped from 24 °C to either 39 °C (HEAT) or 12 °C (COLD) and we continuously monitored participants' mean skin (T sk ) and rectal temperatures (T rec ), heart rate and mean arterial pressure. We recorded participants' self-reported thermal sensation and comfort, mental and physical fatigue, and we assessed their cognitive performance (information processing). Changes in mean T sk and T rec did not differ between MS and CTR neither during HEAT nor COLD. However, at the end of the HEAT trial, 83% of MS participants and 36% of CTR participants reported being "uncomfortable". Furthermore, self-reports of mental and physical fatigue increased significantly in MS but not CTR (p < 0.05), during both HEAT and COLD. Information processing was lower in MS vs. CTR (p < 0.05); yet this cognitive impairment was not exacerbated by HEAT nor COLD (p > 0.05). Our findings indicate that neuropsychological factors (i.e. discomfort and fatigue) could contribute to MS heat and cold intolerance in the absence of deficits in the control of body temperature., Competing Interests: Declaration of Competing Interest The authors report no conflict of interest., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

43. Cutaneous thermosensory mapping of the female breast and pelvis.

Author

Valenza A, Merrick C, Blount H, Ward J, Bianco A, Worsley PR, and Filingeri D

Subjects

Humans, Female, Skin Temperature, Thermosensing, Cold Temperature, Pelvis, Hot Temperature, Skin

Abstract

Differences in skin thermal sensitivity have been extensively mapped across areas of the human body, including the torso, limbs, and extremities. Yet, there are parts of the female body, such as the breast and the pelvis for which we have limited thermal sensitivity data. The aim of this study was to map cutaneous warm and cold sensitivity across skin areas of the breast and pelvis that are commonly covered by female underwear. Twelve young females (21.9 ± 3.2 years) reported on a 200 mm visual analogue scale the perceived magnitude of local thermal sensations arising from short-duration (10 s) static application of a cold [5 °C below local skin temperature (T sk )] or warm (5 °C above local T sk ) thermal probe (25 cm 2 ) in seventeen locations over the breast and pelvis regions. The data revealed that thermal sensitivity to the warm probe, but not the cold probe, varied by up to 25% across the breast [mean difference between lowest and highest sensitivity location was 51 mm (95% CI:14, 89; p < 0.001)] and up to 23% across the pelvis [mean difference between lowest and highest sensitivity location: 46 mm (95% CI:9, 84; p = 0.001)]. The regional differences in baseline T sk did not account for variance in warm thermal sensitivity. Inter-individual variability in thermal sensitivity ranged between 24 and 101% depending on skin location. We conclude that the skin across the female breast and pelvis presents a heterogenous distribution of warm, but not cold, thermal sensitivity. These findings may inform the design of more comfortable clothing that are mapped to the thermal needs of the female body., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

44. Regional skin wetness perception and its modulation by warm and cold whole body skin temperatures in people with multiple sclerosis.

Author

Christogianni A, Bibb R, Filtness A, and Filingeri D

Subjects

Male, Female, Humans, Thermosensing physiology, Cold Temperature, Skin, Perception, Water, Skin Temperature, Multiple Sclerosis

Abstract

Skin wetness sensing is important for thermal stress resilience. Individuals with multiple sclerosis (MS) present greater vulnerability to thermal stress; yet, it is unclear whether they present wetness-sensing abnormalities. We investigated the effects of MS on wetness sensing and their modulation with changes in mean skin temperature (T sk ). Twelve participants with MS [5 males (M)/7 females (F); 48.3 ± 10.8 yr; Expanded Disability Status Scale (EDSS) range: 1-7] and 11 healthy controls (4 M/7 F; 47.5 ± 11.3 yr) undertook three trials, during which they performed a quantitative sensory test with either a thermoneutral (30.9°C), warm (34.8°C), or cold (26.5°C) mean T sk . Participants reported on visual analog scales local wetness perceptions arising from the static and dynamic application of a cold-, neutral-, and warm-wet probe (1.32 cm 2 ; water content: 0.8 mL), to the index finger pad, forearm, and forehead. Data were analyzed for the group-level effect of MS, as well as for its individual variability. Our results indicated that MS did not alter skin wetness sensitivity at a group level, across the skin sites and temperature tested, neither under normothermia nor under conditions of shifted thermal state. However, when taking an individualized approach to profiling wetness-sensing abnormalities in MS, we found that 3 of the 12 participants with MS (i.e., 25% of the sample) presented a reduced wetness sensitivity on multiple skin sites and to different wet stimuli (i.e., cold, neutral, and warm wet). We conclude that some individuals with MS may possess reduced wetness sensitivity; however, this sensory symptom may vary greatly at an individual level. Larger-scale studies are warranted to characterize the mechanisms underlying such individual variability.

Published

2022

45. Heat and cold sensitivity in multiple sclerosis: A patient-centred perspective on triggers, symptoms, and thermal resilience practices.

Author

Christogianni A, O'Garro J, Bibb R, Filtness A, and Filingeri D

Subjects

Humans, Hot Temperature, Fatigue, Multiple Sclerosis complications, Disabled Persons, Motor Disorders

Abstract

Background: The negative effects of heat and cold on Multiple Sclerosis (MS) have been known for ∼100 years. Yet, we lack patient-centred investigations on temperature sensitivity in persons with MS (pwMS)., Objectives: To evaluate triggers, symptoms, and thermal resilience practices of temperature sensitivity pwMS via a dedicated survey., Methods: 757 pwMS completed an online survey assessing the subjective experience of temperature sensitivity. We performed descriptive statistics and regression analyses to evaluate association between individual factors and susceptibility/resilience to thermal stress., Results: Temperature sensitivity varied significantly in pwMS, with 58% of participants being heat sensitive only; 29% heat and cold sensitive; and 13% cold sensitive only (p<0.001). Yet, all pwMS: i) experienced hot and cold days as primary triggers; ii) reported fatigue as the most common worsening symptom, impacting walking and concentration; iii) used air conditioning and changes in clothing insulation as primary thermal resilience practices. Furthermore, certain individual factors (i.e. age, level of motor disability, experience of fatigue) were predictive of greater susceptibility to certain triggers (e.g. hot days) and symptoms (e.g. fatigue)., Conclusion: Patient-centred evidence on the impact of and response to temperature sensitivity could play an important role in the development of individualised healthcare plans for temperature-sensitive pwMS., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

46. Skin wetness sensitivity across body sites commonly affected by pain in people with migraine.

Author

Buoite Stella A, Filingeri D, Garascia G, D'Acunto L, Furlanis G, Granato A, and Manganotti P

Subjects

Adult, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Pain, Prospective Studies, Young Adult, Migraine Disorders, Skin Temperature

Abstract

Objective: The objective of this study was to evaluate skin wetness perception and thermal sensitivity in people with migraine and similar healthy controls., Background: Environmental triggers, such as cold and humidity, are known triggers for pain in people with migraine. Sensory inputs might be implicated in such heightened responses to cold-humid environments, such that a migraine-induced hypersensitivity to cold wetness could be present in people with migraine. However, we lack empirical evidence on skin thermal and wetness sensitivity across skin sites commonly associated with reported pain in migraine, such as the forehead., Methods: This prospective cross-sectional observational study, conducted in a university hospital setting, evaluated skin wetness perceptions and thermal sensations to wet non-noxious warm-wet, neutral-wet, and cold-wet stimuli applied to the forehead, the posterior neck, and the index finger pad of 12 patients with migraine (mean and standard deviation for age 44.5 ± 13.2 years, 7/12 [58%] women) and 36 healthy controls (mean and standard deviation for age 39.4 ± 14.6 years, 18/36 [50%] women)., Results: On the forehead, people with migraine reported a significantly higher wetness perception than healthy controls across all thermal stimulus (15.1 mm, 95% confidence interval [CI]: 1.8 to 28.5, p = 0.027, corresponding to ~ 15% difference), whereas no significant differences were found on the posterior neck nor on the index finger pad. We found no differences among groups in overall thermal sensations (-8.3 mm, 95% CI: -24.0 to 7.3, p = 0.291; -7.8 mm, 95% CI: -25.3 to 9.7, p = 0.375; and 12.4 mm, 95% CI: -4.0 to 28.9, p = 0.133; forehead, posterior neck, and index finger, respectively)., Conclusion: These findings indicate that people with migraine have a heightened sensitivity to skin wetness on the forehead area only, which is where pain attacks occur. Future studies should further explore the underlying mechanisms (e.g., TRPM8-mediated cold-wet allodynia) that lead to greater perception of wetness in people with migraine to better understand the role of environmental triggers in migraine., (© 2022 The Authors. Headache: The Journal of Head and Face Pain published by Wiley Periodicals LLC on behalf of American Headache Society.)

Published

2022

47. The role of friction on skin wetness perception during dynamic interactions between the human index finger pad and materials of varying moisture content.

Author

Merrick C, Rosati R, and Filingeri D

Subjects

Female, Friction, Humans, Male, Skin, Skin Temperature, Thermosensing, Touch Perception

Abstract

Mechanosensory inputs arising from dynamic interactions between the skin and moisture, such as when sliding a finger over a wet substrate, contribute to the perception of skin wetness. Yet, the exact relationship between the mechanical properties of a wet substrate, such as friction, and the resulting wetness perception remains to be established under naturalistic haptic interactions. We modeled the relationship between mechanical and thermal properties of substrates varying in moisture levels (0.49 × 10 -4 ; 1.10 × 10 -4 ; and 2.67 × 10 -4 mL·mm -2 ), coefficient of friction (0.783, 0.848, 1.033, 0.839, 0.876, and 0.763), and maximum thermal transfer rate ( Q max , ranging from 511 to 1,260 W·m -2 ·K -1 ), and wetness perception arising from the index finger pad's contact with such substrates. Forty young participants (20M/20F) performed dynamic interactions with 21 different stimuli using their index finger pad at a controlled angle, pressure, and speed. Participants rated their wetness perception using a 100-mm visual analog scale (very dry to very wet). Partial least squares regression analysis indicated that coefficient of friction explained only ∼11% of the variance in wetness perception, whereas Q max and moisture content accounted for ∼22% and 18% of the variance, respectively. These parameters shared positive relationships with wetness perception, such that the greater the Q max , moisture content, and coefficient of friction, the wetter the perception. We found no differences in wetness perception between males and females. Our findings indicate that although the friction of a wet substrate modulates wetness perception, it is still secondary to thermal parameters such as Q max . NEW & NOTEWORTHY Our skin often interacts with wet materials, yet how their physical properties influence our experience of wetness remains poorly understood. We evaluated wetness perception following naturalistic haptic interactions with materials varying in moisture content, friction, optical profiles, and heat transfer rates. We show that although mechanical parameters can influence wetness perception, their role is secondary to that of thermal factors. These findings expand our understanding of multisensory integration and could guide innovation in healthcare product design.

Published

2022

48. A patient-centred evaluation of phantom skin wetness as a sensory symptom in people with multiple sclerosis.

Author

Christogianni A, Bibb R, Filtness A, and Filingeri D

Subjects

Female, Humans, Male, Prevalence, Skin, Multiple Sclerosis complications, Multiple Sclerosis epidemiology

Abstract

Background: A noticeable but unknown proportion of people with multiple sclerosis (pwMS) report the sudden experience of wetness on a dry skin site, i.e., phantom wetness. Yet, we lack patient-centred investigations on the prevalence and subjective experience of this uncomfortable symptom., Objectives: To assess the prevalence of phantom wetness in pwMS, its association with individual factors, and subjective experience., Methods: 757 pwMS completed an online survey assessing the frequency and subjective experience of phantom wetness. We calculated descriptive statistics and odd ratios and performed a thematic analysis to extract a patient-centred description of phantom wetness., Results: 220 participants reported experiencing phantom wetness (29%). Females and those affected by Relapsing Remitting (RR) MS were 2.17 [1.39, 3.34] (p<0.001) and 1.73 [1.23, 2.40] (p = 0.001) times as likely to experience phantom wetness as males and those not affected by RR MS, respectively. The thematic analysis indicated phantom wetness is more often experienced as water trickling on the skin of the lower limb., Conclusion: Phantom wetness is a paraesthesia occurring in almost a third of the sample surveyed. Clinicians are encouraged to discuss with pwMS to validate their experience as a genuine symptom. Using the patient-generated language we report may help facilitate such conversations., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

49. Ageing reduces skin wetness sensitivity across the body.

Author

Wildgoose C, Valenza A, Buoite Stella A, Feka K, Bianco A, and Filingeri D

Subjects

Aged, Aging, Humans, Male, Skin, Skin Temperature, Thermosensing physiology, Skin Physiological Phenomena, Touch Perception physiology

Abstract

New Findings: What is the central question of this study? Ageing impairs the skin's thermal and tactile sensitivity: does ageing also induce loss of skin wetness sensitivity? What is the main finding and its importance? Older adults show an average 15% loss of skin wetness sensitivity, with this sensory deficit being mediated by a combination of reductions in skin's tactile sensing and hydration status. These findings increase knowledge of wetness sensing mechanisms across the lifespan., Abstract: Humans use sensory integration mechanisms to sense skin wetness based on thermal and mechanical cues. Ageing impairs the skin's thermal and tactile sensitivity, yet we lack evidence on whether wetness sensing also changes with ageing. We mapped local skin wetness and temperature sensitivity in response to cold-, neutral- and warm-wet stimuli applied to the forehead, neck, lower back, dorsal foot, index finger and thumb, in 10 Younger (22.4 ± 1.1 years) and 10 Older (58.2 ± 5.1 years) males. We measured local skin temperature and conductance (i.e., a marker of hydration status) at the tested sites, to establish the role of skin's thermal and mechanical parameters in ageing-induced changes in wetness sensing. Irrespective of body site, Older reported overall lower wetness perceptions than Younger across all wet-stimulus temperatures (mean difference: -14.6 mm; 95% CI: -4.3, -24.9; P = 0.008; ∼15% difference). When considering regional wetness sensitivity, the effect of ageing was more pronounced in response to the cold-wet stimulus over the lover back (mean difference Older vs. Younger: -36.8 mm; 95% CI: -68.4, -5.2; P = 0.014; ∼37% difference) and dorsal foot (mean difference: -37.1 mm; 95% CI: -68.7, -5.5; P = 0.013; ∼37% difference). We found no differences between age groups on overall thermal sensations (P = 0.744) nor local skin temperature (P = 0.372); however, we found that Older presented overall lower skin conductance than Younger (mean difference: -1.56 μS; 95% CI: -0.49, -2.62; P = 0.005), which corresponded to an ∼78% reduction in skin hydration. We conclude that skin wetness sensing decreases with ageing primarily due to age-induced changes in skin mechanics and tactile sensitivity., (© 2021 The Authors. Experimental Physiology © 2021 The Physiological Society.)

Published

2021

50. It is time to be "cool" about maintaining skin integrity.

Author

Filingeri D, Worsley PR, and Bader DL

Subjects

Humans, Cold Temperature, Skin Temperature

Published

2021