Your search keyword '"Biological effects"' showing total 18,860 results

1. A new ex vivo human skin model for the topographic and biological analysis of cosmetic formulas.

Author

Peno‐Mazzarino, Laurent, Jeanneton, Olivier, Scalvino, Stéphanie Almeida, Percoco, Giuseppe, Beauchef, Gallic, Nizard, Carine, and Pays, Karl

Subjects

*PROTEIN expression, *SKIN care products, *SKIN care, *SKIN proteins, *SURFACE properties

Abstract

Objective Methods Results Conclusions Existing methods to evaluate skin care products suffer limitations. This is the case for ex vivo skin explants, a first‐choice 3D model. While essential to analyse mid‐ to long‐term biological effects, this classical model hinders assessing microrelief variations. To circumvent these limitations, we developed an ex vivo PERFused EXplant setup (Perfex) that maintains the outer skin surface in the open air, closely mirroring physiological conditions.A custom‐designed reservoir enables perfusing the dermal side of explants with buffered, temperature‐controlled medium, while the epidermis is subjected to “normal” conditions. Skin tension and characteristics of the stratum corneum, microrelief, histology and immunohistology (collagen types I and III, elastin and fibrillin‐1) were analysed and compared to those of explants maintained under conventional conditions or in vivo skin. The effects of skin care formulas intended to induce short‐ and/or mid‐ to long‐term effects were also assessed.Skin explants maintained with the Perfex setup exhibit characteristics (firmness, elasticity, hydration and barrier function) closer to those of in vivo skin than with conventional conditions. Moreover, Perfex‐maintained explants present no alteration in histology after 7 days and slight variation in the expression of key protein markers. Microrelief characteristics also remain mostly stable over 7 days. Formula applications corroborate that skin tensor‐containing products primarily induce short‐term changes in the microrelief, while those with biologically active ingredients mainly lead to mid‐ to long‐term effects on the histology and expression of molecular markers. Furthermore, maintaining skin explants with a physiologically relevant skin surface enabled analysing the relationship between microrelief and key markers, showing that fibrillin‐1 is the protein most correlated with microrelief characteristics.The Perfex setup allows for similar preservation of skin explant histology and key protein expression as the conventional system, yet it maintains a skin surface close to that of in vivo skin. Therefore, it is valuable to analyse both the short‐ and mid‐ to long‐term impacts of skin care formulas and better comprehend their effects. The Perfex system also offers a new tool for investigating fundamental questions, such as the link that can exist between dermal proteins and skin surface properties. [ABSTRACT FROM AUTHOR]

Published

2024

2. Long-term biological effects after acute 131I-administration of two rat models (with and without thyroid).

Author

Mezaguer-Lekouaghet, Meriem, Souidi, Maâmar, Hadjrabia, Samia, Mameri, Saâdia, Aït-Ziane, Mounir, Badreddine, Abdelwahab, Baz, Ahcène, and Lounis-Mokrani, Zohra

Subjects

*LABORATORY rats, *PHYSIOLOGICAL effects of radiation, *LABORATORY animals, *THYROID gland, *ANIMAL models in research

Abstract

Purpose: Radioiodine-131 (RAI or iodine-131) is one of the most frequently used radionuclides for diagnosis and therapy of thyroid diseases (90% of all therapies in nuclear medicine). In order to optimize the patient protection, it is important to evaluate the long-term biological effects of RAI therapy on non-target organs. Materials and methods: An experimental animal model has been adopted, it consists on miming RAI therapy. An activity of RAI has been administrated in two models of Wistar rats: the first model with an intact thyroid gland (Thy + model), and the second one was thyroidectomized (Thy- model). For each model, 6 rats were orally contaminated with a solution 18.5 ± 1MBq of [131I]NaI and 6 others rats were used as controls. The 24 rats have been placed in individual cages for a period of 08 months then they were euthanized. The blood was collected by cardiac puncture and all organs were immediately removed. A fraction of thyroid, liver, kidneys and testicles was put in vials containing formaldehyde (10%) for histological investigation. Results: Histological observations show some liver disorders more accentuated in the case of the Thy- model, the appearance of kidney tissue effects (hemosiderin deposits, fibrosis and glomerular necrosis) for both models and an absence of any anomaly for the testicles slides. The disturbance of blood parameters specific to each organ has been revealed. Conclusions: Long-term biological effect of 131I-administration shows the appearance of various histological disorders confirmed by disturbances in hepatic and renal functions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Modeling of Biologically Effective Daily Radiant Exposures over Europe from Space Using SEVIRI Measurements and MERRA-2 Reanalysis.

Author

Czerwińska, Agnieszka and Krzyścin, Janusz

Subjects

*SOLAR ultraviolet radiation, *PHYSIOLOGICAL effects of radiation, *SURFACE of the earth, *WEATHER control, *ACTION spectrum

Abstract

Ultraviolet solar radiation at the Earth's surface significantly impacts both human health and ecosystems. A biologically effective daily radiant exposure (BEDRE) model is proposed for various biological processes with an analytical formula for its action spectrum. The following processes are considered: erythema formation, previtamin D3 synthesis, psoriasis clearance, and inactivation of SARS-CoV-2 virions. The BEDRE model is constructed by multiplying the synthetic BEDRE value under cloudless conditions by a cloud modification factor (CMF) parameterizing the attenuation of radiation via clouds. The CMF is an empirical function of the solar zenith angle (SZA) at midday and the daily clearness index from the Spinning Enhanced Visible and Infrared Imager (SEVIRI) measurements on board the second-generation Meteosat satellites. Total column ozone, from MERRA-2 reanalysis, is used in calculations of clear-sky BEDRE values. The proposed model was trained and validated using data from several European ground-based spectrophotometers and biometers for the periods 2014–2023 and 2004–2013, respectively. The model provides reliable estimates of BEDRE for all biological processes considered. Under snow-free conditions and SZA < 45° at midday, bias and standard deviation of observation-model differences are approximately ±5% and 15%, respectively. The BEDRE model can be used as an initial validation tool for ground-based UV data. [ABSTRACT FROM AUTHOR]

Published

2024

4. Influence of Microplastics on Freshwater Bivalves (Review).

Author

Chuiko, G. M., Kholmogorova, N. V., and Zharikov, G. P.

Abstract

Anthropogenic pollution of the aquatic environment with microplastics is one of the most urgent but least studied problems of modern ecotoxicology. This review, based on recent literature data, provides an analysis of studies in the field of absorption, bioaccumulation, and biological effects of microplastic exposure in freshwater bivalve mollusks (Bivalvia). A total of 22 studies have been conducted so far, which were performed on representatives of three families: Cyrenidae (45), Unionidae (25), and Dreissenidae (30%). The studies are made up of field observations (43.5) and field (8.7) and laboratory (47.8%) experiments. It has been shown that freshwater bivalves, as active filters, are able to absorb and accumulate in soft tissues (gills and hepatopancreas) microplastic particles from both water and bottom sediments, perceiving them as food objects. The bioaccumulation of microplastics in mollusks leads to functional and structural disorders in the body. The joint action of microplastics and other pollutants (cadmium, polychlorinated biphenyls, and pharmacological drugs) can cause both synergistic and antagonistic effects in the biological responses of mollusks. Based on these studies, it is suggested to use bivalve mollusks as bioindicators of freshwater pollution with microplastics. [ABSTRACT FROM AUTHOR]

Published

2024

5. Micro(nano)plastic and Related Chemicals: Emerging Contaminants in Environment, Food and Health Impacts.

Author

Carvalho, Juliana G. R. de, Augusto, Helga Coelho, Ferraz, Ricardo, Delerue-Matos, Cristina, and Fernandes, Virgínia Cruz

Subjects

POLLUTANTS, EMERGING contaminants, FOOD additives, PLASTIC scrap, FOOD packaging, PLASTIC marine debris

Abstract

Microplastic pollution is a problem of increasing concern in food, and while food safety issues around the world are serious, an increasing number of food safety issues related to microplastics have become the focus of people's attention. The presence of microplastics in food is a worldwide problem, and they are present in all kinds of foods, foods of both animal and plant origin, food additives, drinks, plastic food packaging, and agricultural practices. This can cause problems for both humans and the environment. Microplastics have already been detected in human blood, heart, placenta, and breastmilk, but their effects in humans are not well understood. Studies with mammals and human cells or organoids have given perspective about the potential impact of micro(nano)plastics on human health, which affect the lungs, kidneys, heart, neurological system, and DNA. Additionally, as plastics often contain additives or other substances, the potentially harmful effects of exposure to these substances must also be carefully studied before any conclusions can be drawn. The study of microplastics is very complex as there are many factors to account for, such as differences in particle sizes, constituents, shapes, additives, contaminants, concentrations, etc. This review summarizes the more recent research on the presence of microplastic and other plastic-related chemical pollutants in food and their potential impacts on human health. [ABSTRACT FROM AUTHOR]

Published

2024

6. The short-term biological effects of different particle sizes of bioflocs on Litopenaeus vannamei.

Author

Kuang, Hao, Xiao, Dingdong, Liu, Wenchang, Guo, Yanshuo, Li, Jie, Luo, Guozhi, and Tan, Hongxin

Abstract

The biological effects of different particle sizes of bioflocs on Litopenaeus vannamei remain unclear. A 4-day short-term stress response experiment was conducted with small-sized group (SG), medium-sized group (MG), and large-sized group (LG), which were treated with bioflocs, and a control group (CG) treated with clear water. The diameters of the median particle size of SG, MG, and LG were 93.19 μm, 139.83 μm, and 173.09 μm, respectively; besides, the diameters of the coarse telomere of SG, MG, and LG were 181.40 μm, 279.60 μm, and 372.52 μm, respectively. The pathological observation of paraffin sections indicated varying degrees of tissue damage in SG, MG, and LG when compared with CG, with SG exhibiting more evident damage characterized by the presence of high-density vacuoles in the gill lumen. The activity of alkaline phosphatase and phenol oxidase exhibited varying degrees of fluctuation in all groups, with SG exhibiting a consistent downward trend. The activity of antioxidant enzymes, including superoxide dismutase, catalase, and glutathione peroxidase, was enhanced by the influence of bioflocs. Additionally, the content of malondialdehyde in SG was significantly higher than that in MG and LG after 2–4 days of stress (P < 0.05). Gill transcriptome analysis showed that CA, PDIA3, V-ATPase, and genes related to oxidative phosphorylation pathway and tricarboxylic acid cycle were significantly up-regulated under the stimulation of bioflocs. Compared with MG, MHC, TnI, and GS were significantly down-regulated in SG. Compared with LG, DanjC9 was significantly down-regulated in SG. Overall, the results showed that the short-term biological effects of small-sized bioflocs on L. vannamei were the strongest. [ABSTRACT FROM AUTHOR]

Published

2025

7. Establishment, characterization, and genetic profiling of patient-derived osteosarcoma cells from a patient with retinoblastoma.

Author

Thongkumkoon, Patcharawadee, Sangphukieo, Apiwat, Tongjai, Siripong, Noisagul, Pitiporn, Sangkhathat, Surasak, Laochareonsuk, Wison, Kamolphiwong, Rawikant, Budprom, Piyaporn, Teeyakasem, Pimpisa, Yongpitakwattana, Petlada, Thepbundit, Viraporn, Sirikaew, Nutnicha, Klangjorhor, Jeerawan, Settakorn, Jongkolnee, Moonmuang, Sutpirat, Suksakit, Pathacha, Pasena, Arnat, Chaijaruwanich, Jeerayut, Yathongkhum, Wilawan, and Dissook, Sivamoke

Subjects

*PRIMARY cell culture, *WHOLE genome sequencing, *DRUG approval, *GENETIC profile, *CRYOPRESERVATION of cells, *CELL culture, *CRYOPROTECTIVE agents

Abstract

Osteosarcoma is the most common malignant bone cancer in pediatric patients. Patients who respond poorly to chemotherapy experience worse clinical outcomes with a high mortality rate. The major challenge is the lack of effective drugs for these patients. To introduce new drugs for clinical approval, preclinical studies based on in vitro models must demonstrate the potency of the tested drugs, enabling the drugs to enter phase 1 clinical trials. Patient-derived cell culture is a promising testing platform for in vitro studies, as they more accurately recapitulate cancer states and genetic profiles compared to cell lines. In the present study, we established patient-derived osteosarcoma cells (PDC) from a patient who had previously been diagnosed with retinoblastoma. We identified a new variant of a germline mutation in the RB1 gene in the tissue of the patient. The biological effects of this PDC were studied to observe whether the cryopreserved PDC retained a feature of fresh PDC. The cryopreserved PDC preserved the key biological effects, including cell growth, invasive capability, migration, and mineralization, that define the conserved phenotypes compared to fresh PDC. From whole genome sequencing analysis of osteosarcoma tissue and patient-derived cells, we found that cryopreserved PDC was a minor population in the origin tissue and was selectively grown under the culture conditions. The cryopreserved PDC has a high resistance to conventional chemotherapy. This study demonstrated that the established cryopreserved PDC has the aggressive characteristics of osteosarcoma, in particular the chemoresistance phenotype that might be used for further investigation in the chemoresistant mechanism of osteosarcoma. In conclusion, the approach we applied for primary cell culture might be a promising method to generate in vitro models for functional testing of osteosarcoma. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Biological Impact of Residual Aluminum Particles on Sand-Blasted Dental Implant Surfaces: A Systematic Review of Animal Studies.

Author

Panda, Sourav, Tumedei, Margherita, Panda, Sital, Goker, Funda, Depalma, Cristina Maria, Pande, Tejas, and Del Fabbro, Massimo

Subjects

DENTAL implants, BACTERIAL adhesion, OSSEOINTEGRATION, SURFACE preparation, BONE growth

Abstract

(1) Background: The use of alumina particles for surface treatment of dental implants is a common practice aimed at enhancing osseointegration. However, the biological effects of residual alumina particles on implant surfaces remain a subject of debate. This systematic review evaluates the impact of residual alumina particles on the osseointegration, biocompatibility, and bacterial adhesion of dental implants based on available in vivo experimental animal studies. (2) Methods: A comprehensive literature search was conducted across PubMed, Web of Science, and Scopus to identify relevant studies. The inclusion criteria focused on experimental animal studies that assessed the biological effects of alumina-blasted dental implants. Data extraction was carried out, and quality assessments were performed using the SYRCLE risk-of-bias tool. (3) Results: Ten studies met the inclusion criteria, involving various animal models, such as rabbits, pigs, dogs, and sheep. The findings demonstrated that residual alumina particles did not negatively impact osseointegration. Some studies reported accelerated bone growth and improved osseointegration with residual alumina. Additionally, residual alumina showed potential bactericidal properties, reducing bacterial adhesion. (4) Conclusions: The available evidence from animal studies suggests that residual alumina particles do not adversely affect the osseointegration and biocompatibility of dental implants. These particles may even enhance bone growth and reduce bacterial adhesion. However, due to the scarcity of human studies and the impracticality of histological assessments in humans, further research, including long-term clinical trials, is necessary to confirm these findings. [ABSTRACT FROM AUTHOR]

Published

2024

9. Identification of Clinical Value and Biological Effects of XIRP2 Mutation in Hepatocellular Carcinoma.

Author

Li, Dahuan, Bao, Xin, Lei, Shan, Cao, Wenpeng, Zeng, Zhirui, and Chen, Tengxiang

Subjects

*CALCIUM ions, *ZINC ions, *GENETIC mutation, *HEPATOCELLULAR carcinoma, *CONSORTIA, *PROTEIN stability

Abstract

Simple Summary: Numerous genetic mutations have been documented in HCC, and associated with clinical characters. Herein, we demonstrated that XIRP2 mutation is one of the high-frequency mutations in HCC, and is associated with poor prognosis and drug resistance. The presence of the XIRP2 mutation leads to enhanced stability of the XIRP2 protein, whereas its depletion significantly heightens sensitivity to oxaliplatin by inducing an excessive influx of zinc and calcium ions. XIRP2 mutation holds potential as a prognostic biomarker and that targeting the XIRP2 protein may offer therapeutic benefits in the management of HCC. Hepatocellular carcinoma (HCC) is a prevalent malignant digestive tumor. Numerous genetic mutations have been documented in HCC, yet the clinical significance of these mutations remains largely unexplored. The objective of this study is to ascertain the clinical value and biological effects of xin actin binding repeat containing 2 (XIRP2) mutation in HCC. The gene mutation landscape of HCC was examined using data from the Cancer Genome Atlas and the International Cancer Genome Consortium databases. The prognostic significance of the XIRP2 mutation was assessed through KM plot analysis. The association between drug sensitivity and the XIRP2 mutation was investigated using the TIDE algorithm and CCK-8 experiments. The biological effects of the XIRP2 mutation were evaluated through qRT-PCR, protein stability experiments, and relevant biological experiments. The XIRP2 mutation is one of the high-frequency mutations in HCC, and is associated with poor prognosis. A total of 72 differentially expressed genes (DEGs) were observed in HCC tissues with the XIRP2 mutation as compared to those with the XIRP2 wildtype, and these DEGs were closely related to ion metabolic processes. The XIRP2 mutation was linked to alterations in the sensitivity of fludarabine, oxaliplatin, WEHI-539, and LCL-161. CCK-8 assays demonstrated that HCC cells carrying the XIRP2 mutation exhibited increased resistance to fludarabine and oxaliplatin, but enhanced sensitivity to WEHI-539 and LCL-161 as compared with those HCC cells with the XIRP2 wildtype. The XIRP2 mutation was found to have no impact on the mRNA levels of XIRP2 in tissues and cells, but it did enhance the stability of the XIRP2 protein. Mechanically, the inhibition of XIRP2 resulted in a significant increase in sensitivity to oxaliplatin through an elevation in zinc ions and a calcium ion overload. In conclusion, the XIRP2 mutation holds potential as a biomarker for predicting the prognosis and drug sensitivity of HCC and serves as a therapeutic target to enhance the efficacy of oxaliplatin. [ABSTRACT FROM AUTHOR]

Published

2024

10. Biological and Environmental Impact of Pharmaceuticals on Marine Fishes: A Review.

Author

Punginelli, Diletta, Maccotta, Antonella, and Savoca, Dario

Subjects

EMERGING contaminants, LIFE cycles (Biology), MARINE fishes, MARINE ecology, POLLUTANTS, BIOINDICATORS

Abstract

Pharmaceuticals are recognized as a serious threat to aquatic ecosystems due to their persistence or pseudo-persistence and their biological activity. Their increased consumption in human and animal medicine has led to a continuous discharge of such biologically active molecules in aquatic environments. Marine ecosystems have been poorly investigated, even though recent studies have confirmed that these emerging contaminants occur widely in these ecosystems. Due to their interaction with specific biochemical and physiological pathways in target organisms, pharmaceuticals can cause alterations in several marine species during their entire life cycle. In particular, marine fishes have shown the ability to bioaccumulate these compounds in their body, and they may be used as potential bioindicators of pharmaceutical contamination in seawater. The objective of this review was to provide a comprehensive overview of the current understanding of the sources and occurrence of pharmaceuticals in marine environments, illustrating the adverse biological effects of important classes of these compounds on marine fishes. [ABSTRACT FROM AUTHOR]

Published

2024

11. Biological hazards of micro- and nanoplastic with adsorbents and additives

Author

Ah Reum Hong and Jin Su Kim

Subjects

microplastics, nanoplastics, heavy metals, chemical additives, biological effects, Public aspects of medicine, RA1-1270

Abstract

With the increased worldwide production of plastics, interest in the biological hazards of microplastics (MP) and nanoplastics (NP), which are widely distributed as environmental pollutants, has also increased. This review aims to provide a comprehensive overview of the toxicological effects of MP and NP on in vitro and in vivo systems based on studies conducted over the past decade. We summarize key findings on how the type, size, and adsorbed substances of plastics, including chemical additives, impact organisms. Also, we address various exposure routes, such as ingestion, inhalation, and skin contact, and their biological effects on both aquatic and terrestrial organisms, as well as human health. Additionally, the review highlights the increased toxicity of MP and NP due to their smaller size and higher bioavailability, as well as the interactions between these particles and chemical additives. This review emphasizes the need for further research into the complex biological interactions and risks posed by the accumulation of MP and NP in the environment, while also proposing potential directions for future studies.

Published

2024

12. Unusual bone abnormalities from therapeutic ultrasound diathermy: a radiological case report

Author

Cruz, Isabela A. N., Guimarães, Júlio B., Ratti, Marco A. S., Link, Thomas M., Nico, Marcelo A. C., and Ormond Filho, Alípio G.

Published

2024

13. Establishment, characterization, and genetic profiling of patient-derived osteosarcoma cells from a patient with retinoblastoma

Author

Patcharawadee Thongkumkoon, Apiwat Sangphukieo, Siripong Tongjai, Pitiporn Noisagul, Surasak Sangkhathat, Wison Laochareonsuk, Rawikant Kamolphiwong, Piyaporn Budprom, Pimpisa Teeyakasem, Petlada Yongpitakwattana, Viraporn Thepbundit, Nutnicha Sirikaew, Jeerawan Klangjorhor, Jongkolnee Settakorn, Sutpirat Moonmuang, Pathacha Suksakit, Arnat Pasena, Jeerayut Chaijaruwanich, Wilawan Yathongkhum, Sivamoke Dissook, Dumnoensun Pruksakorn, and Parunya Chaiyawat

Subjects

Primary cell culture, Bone neoplasm, Whole-genome sequencing, Biological effects, Cryopreservation, Medicine, Science

Abstract

Abstract Osteosarcoma is the most common malignant bone cancer in pediatric patients. Patients who respond poorly to chemotherapy experience worse clinical outcomes with a high mortality rate. The major challenge is the lack of effective drugs for these patients. To introduce new drugs for clinical approval, preclinical studies based on in vitro models must demonstrate the potency of the tested drugs, enabling the drugs to enter phase 1 clinical trials. Patient-derived cell culture is a promising testing platform for in vitro studies, as they more accurately recapitulate cancer states and genetic profiles compared to cell lines. In the present study, we established patient-derived osteosarcoma cells (PDC) from a patient who had previously been diagnosed with retinoblastoma. We identified a new variant of a germline mutation in the RB1 gene in the tissue of the patient. The biological effects of this PDC were studied to observe whether the cryopreserved PDC retained a feature of fresh PDC. The cryopreserved PDC preserved the key biological effects, including cell growth, invasive capability, migration, and mineralization, that define the conserved phenotypes compared to fresh PDC. From whole genome sequencing analysis of osteosarcoma tissue and patient-derived cells, we found that cryopreserved PDC was a minor population in the origin tissue and was selectively grown under the culture conditions. The cryopreserved PDC has a high resistance to conventional chemotherapy. This study demonstrated that the established cryopreserved PDC has the aggressive characteristics of osteosarcoma, in particular the chemoresistance phenotype that might be used for further investigation in the chemoresistant mechanism of osteosarcoma. In conclusion, the approach we applied for primary cell culture might be a promising method to generate in vitro models for functional testing of osteosarcoma.

Published

2024

14. The Potential of Cold Atmospheric Pressure Plasmas for the Direct Degradation of Organic Pollutants Derived from the Food Production Industry.

Author

Cyganowski, Piotr, Terefinko, Dominik, Motyka-Pomagruk, Agata, Babinska-Wensierska, Weronika, Khan, Mujahid Ameen, Klis, Tymoteusz, Sledz, Wojciech, Lojkowska, Ewa, Jamroz, Piotr, Pohl, Pawel, Caban, Magda, Magureanu, Monica, and Dzimitrowicz, Anna

Subjects

*COLD atmospheric plasmas, *PERSISTENT pollutants, *POLLUTANTS, *FOOD production, *REACTIVE nitrogen species, *ORGANIC foods, *TOXAPHENE, *ORGANIC farming

Abstract

Specialized chemicals are used for intensifying food production, including boosting meat and crop yields. Among the applied formulations, antibiotics and pesticides pose a severe threat to the natural balance of the ecosystem, as they either contribute to the development of multidrug resistance among pathogens or exhibit ecotoxic and mutagenic actions of a persistent character. Recently, cold atmospheric pressure plasmas (CAPPs) have emerged as promising technologies for degradation of these organic pollutants. CAPP-based technologies show eco-friendliness and potency for the removal of organic pollutants of diverse chemical formulas and different modes of action. For this reason, various types of CAPP-based systems are presented in this review and assessed in terms of their constructions, types of discharges, operating parameters, and efficiencies in the degradation of antibiotics and persistent organic pollutants. Additionally, the key role of reactive oxygen and nitrogen species (RONS) is highlighted. Moreover, optimization of the CAPP operating parameters seems crucial to effectively remove contaminants. Finally, the CAPP-related paths and technologies are further considered in terms of biological and environmental effects associated with the treatments, including changes in antibacterial properties and toxicity of the exposed solutions, as well as the potential of the CAPP-based strategies for limiting the spread of multidrug resistance. [ABSTRACT FROM AUTHOR]

Published

2024

15. Increasing Risks to the Health of the Invertebrates—Balancing between Harm and Benefit.

Author

Kuznetsova, Tatiana V., Kudryavtseva, Valentina A., and Kapranova, Larisa L.

Subjects

*EVIDENCE gaps, *POLLUTANTS, *INVERTEBRATES, *BIOLOGICAL membranes, *HEAVY metals

Abstract

Simple Summary: Emerging challenges associated with the COVID-19 (SARS-CoV-2) pandemic include the unpredictable biological effects of highly recommended detergents and disinfectants to reduce the risk of human infection. How these classes of substances affect living organisms, especially the health of the invertebrates as common representatives of biota, is still unclear. Due to the exceptional ability of disinfectants and detergents to penetrate biological membranes and alter the pH of the environment, these classes of substances, together with other environmental pollutants of concern (e.g., heavy metals), can have pronounced negative effects on macrobenthic invertebrates. The review analyzes the current state of research in this area and discusses ways to reduce risks to invertebrates. The article discusses the issue of extensive use of detergents and sanitizers in the time of new challenges associated with the COVID-19 (SARS-CoV-2) pandemic. These agents could pose threats to the existence of free-living invertebrates as essential components of the ecosystem. The biological effects of the mentioned classes of substances, their metabolites, and combined effects in the mixture have not been studied enough. The main challenges in trying to balance the threats and benefits of using such substances are the lack of knowledge of the biological effects of these products, the gaps in testing invertebrates' responses, and changes in environment-related regulations to minimize risks to animals and humans. Numerous studies in this field still leave research gaps, particularly concerning the combined toxicity of well-known and widely used disinfectants, surfactants, and heavy metals, posing potential future challenges. Additionally, the review identified the need for additional testing of invertebrates for their sensitivity to disinfectants and surfactants of different compositions, including improved (non-invasive) methods, studies for early life stages, and comparative studies of species resilience. [ABSTRACT FROM AUTHOR]

Published

2024

16. An analysis of the effects of chronic low dose-rate radiation exposure on cancer focusing on the differences among cancer types.

Author

Kinugawa, Tetsuhiro, Tanaka III, Ignacia Braga, Tanaka, Satoshi, Manabe, Yuichiro, Sato, Fuminobu, and Wada, Takahiro

Subjects

*RADIATION exposure, *LIFE expectancy, *LYMPHOMAS, *ENVIRONMENTAL sciences

Abstract

The effect of chronic low dose-rate radiation exposure on cancers was investigated by analyzing the data of mice experiments conducted at the Institute for Environmental Sciences (IES). This analysis focuses on the differences between malignant lymphomas and solid cancers. The analysis is conducted based on the mathematical model introduced in our previous work. The model is expanded to analyze malignant lymphomas and solid cancers separately. Using the expanded model, the effect of chronic low dose-rate radiation on malignant lymphomas and solid cancers are discussed based on their occurrences, progressions, and mortalities. Non-irradiated control group and 20 mGy/day × 400 days irradiated groups are analyzed. The analysis showed that radiation exposure shortened mean life expectancy for both malignant lymphomas and solid cancers (shorter by 89.6 days for malignant lymphomas and 149.3 days for solid cancers). For malignant lymphomas, both the occurrence and the progression are affected by radiation exposure. The mean age at which malignant lymphoma developed in mice was shortened by 32.7 days and the mean progression period was shortened by 57.3 days. The occurrence of solid cancer is also affected by radiation exposure, wherein the mean age at which solid cancer develops was shortened by 147.9 days. However, no significant change in progression period of solid cancers was seen in the analysis. The analysis showed that the occurrence and mean lifespan are affected in both malignant lymphomas and solid cancers. The shortening of the progression period is only seen in malignant lymphoma, no significant change was observed in solid cancers. [ABSTRACT FROM AUTHOR]

Published

2024

17. Puerarin—A Promising Flavonoid: Biosynthesis, Extraction Methods, Analytical Techniques, and Biological Effects.

Author

Liga, Sergio and Paul, Cristina

Subjects

*FLAVONOIDS, *ISOFLAVONES, *BIOSYNTHESIS, *ALZHEIMER'S disease, *PLANT metabolites, *GASTRIC diseases, *CULTIVARS

Abstract

Flavonoids, a variety of plant secondary metabolites, are known for their diverse biological activities. Isoflavones are a subgroup of flavonoids that have gained attention for their potential health benefits. Puerarin is one of the bioactive isoflavones found in the Kudzu root and Pueraria genus, which is widely used in alternative Chinese medicine, and has been found to be effective in treating chronic conditions like cardiovascular diseases, liver diseases, gastric diseases, respiratory diseases, diabetes, Alzheimer's disease, and cancer. Puerarin has been extensively researched and used in both scientific and clinical studies over the past few years. The purpose of this review is to provide an up-to-date exploration of puerarin biosynthesis, the most common extraction methods, analytical techniques, and biological effects, which have the potential to provide a new perspective for medical and pharmaceutical research and development. [ABSTRACT FROM AUTHOR]

Published

2024

18. Potential biological functions and future perspectives of sialylated milk oligosaccharides.

Author

Nguyen, Thuy Le Lam, Nguyen, Dung Van, and Heo, Kyung-Sun

Abstract

Sialyllactoses (SLs) primarily include sialylated human milk oligosaccharides (HMOs) and bovine milk oligosaccharides (BMOs). First, the safety assessment of 3′-sialyllactose (3′-SL) and 6′-sialyllactose (6′-SL) revealed low toxicity in various animal models and human participants. SLs constitute a unique milk component, highlighting the essential nutrients and bioactive components crucial for infant development, along with numerous associated health benefits for various diseases. This review explores the safety, biosynthesis, and potential biological effects of SLs, with a specific focus on their influence across various physiological systems, including the gastrointestinal system, immune disorders, rare genetic disorders (such as GNE myopathy), cancers, neurological disorders, cardiovascular diseases, diverse cancers, and viral infections, thus indicating their therapeutic potential. [ABSTRACT FROM AUTHOR]

Published

2024

19. Advances in Research on the Activity Evaluation, Mechanism and Structure-Activity Relationships of Natural Antioxidant Peptides.

Author

Xu, Baoting, Dong, Qin, Yu, Changxia, Chen, Hongyu, Zhao, Yan, Zhang, Baosheng, Yu, Panling, and Chen, Mingjie

Subjects

STRUCTURE-activity relationships, PEPTIDES, AMINO acid sequence, RESEARCH evaluation, MOLECULAR dynamics, LIPIDS

Abstract

Antioxidant peptides are a class of biologically active peptides with low molecular weights and stable antioxidant properties that are isolated from proteins. In this review, the progress in research on the activity evaluation, action mechanism, and structure-activity relationships of natural antioxidant peptides are summarized. The methods used to evaluate antioxidant activity are mainly classified into three categories: in vitro chemical, in vitro cellular, and in vivo animal methods. Also, the biological effects produced by these three methods are listed: the scavenging of free radicals, chelation of metal ions, inhibition of lipid peroxidation, inhibition of oxidative enzyme activities, and activation of antioxidant enzymes and non-enzymatic systems. The antioxidant effects of natural peptides primarily consist of the regulation of redox signaling pathways, which includes activation of the Nrf2 pathway and the inhibition of the NF-κB pathway. The structure-activity relationships of the antioxidant peptides are investigated, including the effects of peptide molecular weight, amino acid composition and sequence, and secondary structure on antioxidant activity. In addition, four computer-assisted methods (molecular docking, molecular dynamics simulation, quantum chemical calculations, and the determination of quantitative structure-activity relationships) for analyzing the structure-activity effects of natural peptides are summarized. Thus, this review lays a theoretical foundation for the development of new antioxidants, nutraceuticals, and cosmetics. [ABSTRACT FROM AUTHOR]

Published

2024

20. Study of genotoxic and cytotoxic effects induced in human fibroblasts by exposure to pulsed and continuous 1.6 GHz radiofrequency

Author

Luca Massaro, Stefania De Sanctis, Valeria Franchini, Elisa Regalbuto, Gaetano Alfano, Chiara Focaccetti, Monica Benvenuto, Loredana Cifaldi, Antonella Sgura, Francesco Berardinelli, Jessica Marinaccio, Federica Barbato, Erica Rossi, Daniela Nardozi, Laura Masuelli, Roberto Bei, and Florigio Lista

Subjects

radiofrequency, 1.6 GHz, biological effects, protein expression, ultrastructure, EMF, Public aspects of medicine, RA1-1270

Abstract

BackgroundThe widespread use of radiofrequency (RF) sources, ranging from household appliances to telecommunications devices and military equipment, raises concerns among people and regulatory agencies about the potential health risks of RF exposure. Consequently, several in vitro and in vivo studies have been done to investigate the biological effects, in particular non-thermal, of this non-ionizing radiation. To date, this issue is still being debated due to the controversial results that have been reported. Furthermore, the impact of different RF signal modulations on biological systems remains poorly investigated. The present in vitro study aims to evaluate the cytotoxicity and genotoxicity of continuous or pulsed 1.6 GHz RF in human dermal fibroblasts (HDF).MethodsHDF cultures were exposed to continuous and pulsed 1.6 GHz RF, for 2 h, with Specific Absorption Rate (SAR) of 0.4 W/kg. The potential biological effects of 1.6 GHz RF on HDF were assessed with a multi-methodological approach, analyzing the effects on cell cycle, ultrastructure, protein expression, mitotic spindle, CREST stained micronuclei, chromosome segregation and γ-H2AX/53BP1 foci.Results1.6 GHz RF exposure modified proteins expression and morphology of HDF. Specifically, the expression of different heat-shock proteins (HSP) (i.e., HSP-90, HSP-60, and HSP-25) and phospho-AKT were affected. In addition, both continuous and pulsed RF modified the cytoskeletal organization in HDF and increased the number of lysosomes, while the formation of autophagosomes was observed only after pulsed RF exposure. Mitotic spindle anomalies were also found after exposure. However, no significant effect was observed on cell cycle, chromosome segregation, CREST-stained micronuclei and γ-H2AX/53BP1 foci.ConclusionThe results of the present study show the absence of genotoxic damage in 1.6 GHz RF exposed HDF and, although mitotic spindle alterations were observed, they did not have an aneugenic effect. On the other hand, changes in some proteins expression and cell ultrastructure in exposed HDF suggest that RF can potentially induce cell alterations at the morphological and molecular levels.

Published

2024

21. Millimeter waves in medical applications: status and prospects

Author

Honglin Wang, Lin Lu, Pengran Liu, Jiayao Zhang, Songxiang Liu, Yi Xie, Tongtong Huo, Hong Zhou, Mingdi Xue, Ying Fang, Jiaming Yang, and Zhewei Ye

Subjects

Millimeter wave, Biological effects, Medical applications, Vital signs monitoring, Medical technology, R855-855.5

Abstract

Millimeter waves are electromagnetic waves with wavelengths of 1–10 mm, which have characteristics of high frequency and short wavelength. They have gradually and widely been used in engineering and medical fields. We have identified studies related to millimeter waves in the biomedical field and summarized the biological effects of millimeter waves and their current status in medical applications. Finally, the shortcomings of existing studies and future developments were analyzed and discussed, with the aim of providing a reference for further research and development of millimeter waves in the medical field.

Published

2024

22. Analysis and control of ornamental plant responses to exposure to electromagnetic fields

Author

Adel Razek

Subjects

emf exposure, daily rf devices, plant tissues, biological effects, thermal behavior, emf model, bio-heat transfer model, coupled strategy, Plant ecology, QK900-989, Environmental effects of industries and plants, TD194-195

Abstract

All plants, including ornamentals, are subject to different stressors related to their environment. These can disrupt their progress, including their ability to generate pollen and reproduce successfully. These stressors may involve inert natural impacts such as temperature, deficiency and salinity levels of water. They may also involve natural active effects such as herbivores and pathogens. Other types of accidental natural effects, such as storms and lightning, could also occur. There are also artificial effects that shape the environment of human activity. Nowadays, the environment of electromagnetic fields, and in particular those at high frequency, are an important element. This contribution aims to propose an analysis and a strategy for controlling the biological effects of plant exposure to such fields. The analysis takes into account the nature of the exposure source, the properties of the exposed materials and the exposure conditions. This is accomplished through the governing equations related to electromagnetic and heat transfer phenomena permitting the prediction of biological thermal effects of the exposure. The involved coupled phenomena solution approach makes it possible to predict, verify, and provide means of protection against exposure. The proposed survey is supported by a review of the literature on the various subjects concerned.

Published

2024

23. Modeling of Biologically Effective Daily Radiant Exposures over Europe from Space Using SEVIRI Measurements and MERRA-2 Reanalysis

Author

Agnieszka Czerwińska and Janusz Krzyścin

Subjects

UV radiation, satellite observations, reanalysis, biological effects, erythema appearance, previtamin D3 synthesis, Science

Abstract

Ultraviolet solar radiation at the Earth’s surface significantly impacts both human health and ecosystems. A biologically effective daily radiant exposure (BEDRE) model is proposed for various biological processes with an analytical formula for its action spectrum. The following processes are considered: erythema formation, previtamin D3 synthesis, psoriasis clearance, and inactivation of SARS-CoV-2 virions. The BEDRE model is constructed by multiplying the synthetic BEDRE value under cloudless conditions by a cloud modification factor (CMF) parameterizing the attenuation of radiation via clouds. The CMF is an empirical function of the solar zenith angle (SZA) at midday and the daily clearness index from the Spinning Enhanced Visible and Infrared Imager (SEVIRI) measurements on board the second-generation Meteosat satellites. Total column ozone, from MERRA-2 reanalysis, is used in calculations of clear-sky BEDRE values. The proposed model was trained and validated using data from several European ground-based spectrophotometers and biometers for the periods 2014–2023 and 2004–2013, respectively. The model provides reliable estimates of BEDRE for all biological processes considered. Under snow-free conditions and SZA < 45° at midday, bias and standard deviation of observation-model differences are approximately ±5% and 15%, respectively. The BEDRE model can be used as an initial validation tool for ground-based UV data.

Published

2024

24. Micro(nano)plastic and Related Chemicals: Emerging Contaminants in Environment, Food and Health Impacts

Author

Juliana G. R. de Carvalho, Helga Coelho Augusto, Ricardo Ferraz, Cristina Delerue-Matos, and Virgínia Cruz Fernandes

Subjects

plastic waste, polymers, additives, biological effects, Chemical technology, TP1-1185

Abstract

Microplastic pollution is a problem of increasing concern in food, and while food safety issues around the world are serious, an increasing number of food safety issues related to microplastics have become the focus of people’s attention. The presence of microplastics in food is a worldwide problem, and they are present in all kinds of foods, foods of both animal and plant origin, food additives, drinks, plastic food packaging, and agricultural practices. This can cause problems for both humans and the environment. Microplastics have already been detected in human blood, heart, placenta, and breastmilk, but their effects in humans are not well understood. Studies with mammals and human cells or organoids have given perspective about the potential impact of micro(nano)plastics on human health, which affect the lungs, kidneys, heart, neurological system, and DNA. Additionally, as plastics often contain additives or other substances, the potentially harmful effects of exposure to these substances must also be carefully studied before any conclusions can be drawn. The study of microplastics is very complex as there are many factors to account for, such as differences in particle sizes, constituents, shapes, additives, contaminants, concentrations, etc. This review summarizes the more recent research on the presence of microplastic and other plastic-related chemical pollutants in food and their potential impacts on human health.

Published

2024

25. A study of the biological effects of low-level light

Author

Zhang, Fan, Li, Qiaoyu, Qin, Wenxin, Ren, Wei, Zhu, Peiqiu, Jin, Qiuzi, and Li, Man

Published

2024

26. Bioactive cytochalasans from the desert soil-derived fungus Chaetomium madrasense 375 obtained via a chemical engineering strategy.

Author

Qingfeng Guo, Shenyu Shen, Xinyang Wang, Lei Shi, Yuwei Ren, Dandan Li, Zhenhua Yin, Juanjuan Zhang, Baocheng Yang, Xuewei Wang, Gang Ding, and Lin Chen

Subjects

CHEMICAL engineering, CHEMICAL engineers, ISOXAZOLES, CHAETOMIUM, DRUG discovery, NITRIC-oxide synthases, LIPOPOLYSACCHARIDES

Abstract

The chemical engineering of natural extracts has emerged as an effective strategy for the production of diverse libraries of chemicals, making it integral to drug discovery. A chemical engineering strategy based on the epoxidation and ring-opening reactions was used to prepare diversity-enhanced extracts of Chaetomium madrasense 375. Eleven unnatural cytochalasan derivatives (1-11) with unique functional groups, such as amine and isoxazole, were isolated and characterized from these chemically engineered extracts of C. madrasense 375. The identification of these new structures was accomplished through comprehensive spectroscopic analysis, supplemented by synthetic considerations. Notably, compounds 5 and 13-16 displayed potent phytotoxic effects on Arabidopsis thaliana, while compounds 1, 2, 5, 10, and 12 demonstrated inhibitory activities on LPS-induced NO production in RAW264.7 cells. Among them, compound 1 was found to be able to inhibit the upregulated expression of the inducible nitric oxide synthase (iNOS) protein induced by LPS, while also decreasing the production of pro-inflammatory cytokines (IL-6) and influencing the phosphorylation of p38, ERK1/2, and JNK at 100 μM. Our findings demonstrate that the chemical engineering of natural product extracts can be an efficient technique for the generation of novel bioactive molecules. [ABSTRACT FROM AUTHOR]

Published

2024

27. A mathematical model for radiation-induced life-shortening attributed to cancer.

Author

Kinugawa, Tetsuhiro, Tanaka III, Ignacia Braga, Tanaka, Satoshi, Manabe, Yuichiro, Sato, Fuminobu, and Wada, Takahiro

Subjects

*MATHEMATICAL models, *CANCER invasiveness, *ENVIRONMENTAL sciences

Abstract

In this paper, we described our mathematical model for radiation-induced life shortening in detail and applied the model to the experimental data on mice to investigate the effect of radiation on cancer-related life-shortening. Our mathematical model incorporates the following components: (i) occurrence of cancer, (ii) progression of cancer over time, and (iii) death from cancer. We evaluated the progression of cancer over time by analyzing the cancer incidence data and cumulative mortalities data obtained from mice experiments conducted at the Institute for Environmental Sciences (IES). We analyzed non-irradiated control and 20 mGy/day × 400 days irradiated groups. In the analysis, all malignant neoplasms were lumped together and referred to as 'cancer'. Our analysis showed that the reduction in lifespan (104 days in median) was the result of the early onset of cancer (68 days in median) and the shortening of the cancer progression period (48 days in median). We described in detail our mathematical model for radiation-induced life-shortening attributed to cancer. We analyzed the mice data obtained from the experiment conducted at the IES using our model. We decomposed radiation-induced life-shortening into the early onset of cancer and the shortening of the cancer progression period. [ABSTRACT FROM AUTHOR]

Published

2024

28. Gasotransmitter-Mediated Cysteinome Oxidative Posttranslational Modifications: Formation, Biological Effects, and Detection.

Author

Li, Zongmin, Huang, Yaqian, Lv, Boyang, Du, Junbao, Yang, Jing, Fu, Ling, and Jin, Hongfang

Subjects

*POST-translational modification, *HYDROGEN sulfide, *SPATIAL resolution, *SULFUR dioxide, *MASS spectrometry, *PROTEOMICS

Abstract

Significance: Gasotransmitters, including nitric oxide (NO), hydrogen sulfide (H2S) and sulfur dioxide (SO2), participate in various cellular processes via corresponding oxidative posttranslational modifications (oxiPTMs) of specific cysteines. Recent Advances: Accumulating evidence has clarified the mechanisms underlying the formation of oxiPTMs derived from gasotransmitters and their biological functions in multiple signal pathways. Because of the specific existence and functional importance, determining the sites of oxiPTMs in cysteine is crucial in biology. Recent advances in the development of selective probes, together with upgraded mass spectrometry (MS)-based proteomics, have enabled the quantitative analysis of cysteinome. To date, several cysteine residues have been identified as gasotransmitter targets. Critical Issues: To clearly understand the underlying mechanisms for gasotransmitter-mediated biological processes, it is important to identify modified targets. In this review, we summarize the chemical formation and biological effects of gasotransmitter-dependent oxiPTMs and highlight the state-of-the-art detection methods. Future Directions: Future studies in this field should aim to develop the next generation of probes for in situ labeling to improve spatial resolution and determine the dynamic change of oxiPTMs, which can lay the foundation for research on the molecular mechanisms and clinical translation of gasotransmitters. Antioxid. Redox Signal. 40, 145–167. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of Cytogenetic Damage Induced during Hysterosalpingography Procedure: A Cross-sectional Study.

Author

CHODANKAR, SAYALI SATISH, VISHAKH, R., SELVAN, G. TAMIZH, SHETTY, SHASHI KUMAR, VIDYAN, SAVIN K., LAAD, AMARJA PANDURANG, and KUMARI, N. SUCHETHA

Subjects

*HYSTEROSALPINGOGRAPHY, *CROSS-sectional method, *UTERUS, *FALLOPIAN tubes, *CONTRAST media, *ENTRANCES & exits

Abstract

Introduction: Hysterosalpingography (HSG) is a radiographic procedure used to visualise the fallopian tubes and uterine cavity by injecting a contrast medium, commonly employed for diagnosing infertility cases. However, due to the associated radiographic and fluoroscopic exposure, there is an increased risk of chromosomal damage to the gonads. Aim: To investigate the impact of radiographic and fluoroscopic exposure on chromosomal integrity in peripheral blood lymphocytes using the Cytokinesis Blocked Micronucleus (CBMN) assay. Materials and Methods: This cross-sectional time-bound study included 10 patients (n=10) scheduled for HSG procedures at the Department of Radiology, Justice KS Hegde Hospital, Mangaluru, Karnataka, India from April 2021 to March 2022. Following radiation exposure, the CBMN assay was conducted to evaluate chromosomal damage in both test and control group blood samples. Blood samples from healthy donors were divided into three cryo vials, with one serving as the control and the remaining two exposed to radiation at the entrance and exit areas during the HSG procedure. The data were expressed as mean±Standard Deviation (SD). A p-value <0.05 was considered statistically significant. The analysis was performed using Statistical Package for Social Sciences (SPSS) version 20.0. results: A statistically significant (p<0.05) increase in biological damage was observed when comparing the Micronucleus (MN) frequency of the test groups (entrance=0.022±0.005 and exit group=0.0172±0.005) with the control group (0.006±0.003). Additionally, a decrease in MN frequency was noticed within the test groups, particularly in the exit group, although the results were not statistically significant (p=0.066). conclusion: The HSG is an effective clinical diagnostic technique. However, the present study indicates a potential risk of chromosomal damage associated with the procedure, emphasising the need for judicious use of radiation exposure during HSG. [ABSTRACT FROM AUTHOR]

Published

2024

30. Remodeling of intestinal epithelium derived extracellular vesicles by nanoparticles and its bioeffect on tumor cell migration.

Author

Lin, Yuxing, Deng, Hailiang, Deng, Feiyang, Yao, Siyu, Deng, Xinxin, Cheng, Yuxi, Chen, Ying, He, Bing, Dai, Wenbing, Zhang, Hua, Zhang, Qiang, and Wang, Xueqing

Subjects

*INTESTINAL mucosa, *CELL migration, *EXTRACELLULAR vesicles, *CELL migration inhibition, *PI3K/AKT pathway, *EPITHELIAL cells, *NANOMEDICINE

Abstract

Extracellular vesicles (EVs) are an effective tool to elucidate the bioeffect of nanomedicines. To clarify the interaction between oral nanomedicines and intestinal epithelial cells, and their bioeffects on downstream cells, polystyrene nanoparticles (PS-NPs) with different sizes were used as the model nanomedicines for EVs induction. Caco-2 monolayers were selected as the model of the intestinal epithelium and DLD-1 cells as the colorectal cancer model proximal to the gastrointestinal tract. It is found that compared with small-sized (25, 50, 100 nm) PS-NPs, the large-sized (200 and 500 nm) exhibited higher co-localization with multivesicular bodies and lysosomes, and more significant reduction of lysosomal acidification in Caco-2 cells. Proteomic and western-blotting analysis showed that the EVs remodeled by large-sized PS-NPs exhibited a higher extent of protein expression changes. The in vitro and in vivo signaling pathway detection in DLD-1 cells and DLD-1 cell xenograft nude mice showed that the remodeled EVs by large-sized PS-NPs inhibited the activation of multiple signaling pathways including Notch3, EGF/EGFR, and PI3K/Akt pathways, which resulted in the inhibition of tumor cell migration. These results primarily clarify the regulation mechanisms of nanomedicines-EVs-receptor cells chain. It provides a new perspective for the rational design and bioeffect evaluation of oral drug nanomaterials and sets up the fundamental knowledge for novel tumor therapeutics in the future. [Display omitted] • Oral nanomedicines induce a biological response cascade through extracellular vesicles derived from intestinal epithelial cells. • Polystyrene nanoparticles alter the protein contents of extracellular vesicles in a size-dependent manner. • Extracellular vesicles remodeled by large-sized polystyrene nanoparticles inhibit tumor cell migration. • The activation of Notch3, EGF/EGFR, and PI3K/Akt pathways, accounts for the inhibition of tumor metastasis. • The regulation mechanisms of nanomedicines-EVs-receptor cells chain, suggest a potential EVs-mediated tumor therapeutics in the future, and provide a theoretical basis for the rational design of oral nanomedicines. [ABSTRACT FROM AUTHOR]

Published

2024

31. Editorial: Chemistry, toxicity, synthesis, biological and pharmacological activities of coumarins and their derivatives: recent advances and future perspectives

Author

Ahmed Olatunde, Habibu Tijjani, Adeyemi Oladapo Aremu, Abdur Rauf, Hafiz A. R. Suleria, and Mohammad S. Mubarak

Subjects

phytochemicals, structure-activity relationship, biological effects, toxicity profile, drug candidates, Therapeutics. Pharmacology, RM1-950

Published

2024

32. Methodological approaches to the electromagnetic radiation effects on microorganisms

Author

Gleb A. Shcheglov and Vladimir A. Masloboev

Subjects

biotechnologies, methods, electromagnetic fields, biological effects, irradiation, millimeter waves, Environmental sciences, GE1-350

Abstract

All living organisms are surrounded by natural and artificial origin electromagnetic radiation (EMR), which affects organisms. The artificial radiation sources number is increasing, but the EMR influence mechanisms on living organisms have not yet been fully investigated, despite the large number of studies. However, understanding the EMR action mechanisms can give impetus to the development of various biotechnologies. To solve the problem of understanding the EMR effects on organisms and develop new biotechnologies, it is necessary to apply new research methods. Therefore, the study of research methods is an urgent task. This research is a review of studies and research methods on the effects, of EMR on organisms. It brings together studies that consider different approaches to the study and existing hypotheses of the mechanisms of radiation effects. The aim of the paper is to review and evaluate methodological approaches to investigate the effects of EMR. The paper considers research on the EMR effects on microorganisms, eubacteria. Based on the results of the work, it is proposed to study the effect of radiation lasting several hours. As well as to apply spectrophotometry and fluorimetry methods.

Published

2023

33. Evaluation of Toxicological Risks and Effects of Microplastics on Nile Tilapia (Oreochromis niloticus) under in Vitro Laboratory Conditions

Author

Macarius Pancras Mtega, Matobola Joel Mihale, and Kessy Fidel Kilulya

Subjects

microplastics, toxicological risks, oreochromis niloticus, aquatic organisms, biological effects, in vitro condition, Veterinary medicine, SF600-1100, Science

Abstract

Microplastics have been reported by many literatures as contaminants of environmental water bodies and are ingested by aquatic organisms due to their small sizes. Knowing the effects of microplastics to freshwater fish which are kept in ponds helps in managing fish-keeping practices. The objective of the research was to determine the toxicity of microplastics to Nile tilapia (Oreochromis niloticus). The Experiment was done in 80 fish samples. Microplastics which were prepared for the batch experiment were introduced in the aquarium followed with observation for 21 days. The digestion of fish gills and intestines involved 10 mL of 10% (w/v) KOH solution and incubation at 65oC for 24 hours. Engulfed microplastics were determined using stereo microscope and At-IR spectrophotometer for confirmation. Engulfed microplastics were observed to be in mean range of 3.37 x 102±4.04 x 102 to 2.32 x 103 ± 3.57 x 103 particles/kg in gills and 4.68 x 104 ± 3.02 x 104 to4.40 x 104 ± 5.34 x 104 particles/kg in intestines. The observed responses were loss of equilibrium for 35% of fish, abnormal swimming for 49% of fish, abnormal ventilator behavior for 59% of fish, abnormal appearance for 39% of fish and average growth weight increase in control experiment fish was 6.10±2.62 g compared to 1.7 ± 3.62 g in test fish. There was no mortality of Nile tilapia. The responses of fish to the presence of microplastics in aquarium indicated that microplastics had adverse effects to Nile tilapia (Oreochromis niloticus). More researches have to be done on fish physiological changes caused by microplastics

Published

2023

34. Editorial: Chemistry, toxicity, synthesis, biological and pharmacological activities of coumarins and their derivatives: recent advances and future perspectives.

Author

Olatunde, Ahmed, Tijjani, Habibu, Aremu, Adeyemi Oladapo, Rauf, Abdur, Suleria, Hafiz A. R., and Mubarak, Mohammad S.

Subjects

COUMARINS, COUMARIN derivatives, POISONS, ACUTE toxicity testing, G protein coupled receptors

Abstract

This editorial provides an overview of coumarins, which are natural compounds found in plants and fungi. It discusses their various uses in industries such as food, cosmetics, and pharmaceuticals due to their pleasant smell. The document focuses on the biological and pharmacological activities, toxicity, sources, and classification of coumarins, as well as their synthetic forms. It also includes research papers and reviews on the topic. The editorial highlights the potential use of coumarins as natural pesticides and their importance in promoting health and alleviating diseases. It emphasizes the need for more toxicity studies to ensure the safety of these compounds. The document specifically highlights the biological activities of daphnetin and scopoletin, two derivatives of coumarins, and recommends further research to confirm their documented effects and safety. [Extracted from the article]

Published

2024

35. The Biological Impact of Residual Aluminum Particles on Sand-Blasted Dental Implant Surfaces: A Systematic Review of Animal Studies

Author

Sourav Panda, Margherita Tumedei, Sital Panda, Funda Goker, Cristina Maria Depalma, Tejas Pande, and Massimo Del Fabbro

Subjects

aluminum oxide, biological effects, dental implants, osseointegration, surface modification, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

(1) Background: The use of alumina particles for surface treatment of dental implants is a common practice aimed at enhancing osseointegration. However, the biological effects of residual alumina particles on implant surfaces remain a subject of debate. This systematic review evaluates the impact of residual alumina particles on the osseointegration, biocompatibility, and bacterial adhesion of dental implants based on available in vivo experimental animal studies. (2) Methods: A comprehensive literature search was conducted across PubMed, Web of Science, and Scopus to identify relevant studies. The inclusion criteria focused on experimental animal studies that assessed the biological effects of alumina-blasted dental implants. Data extraction was carried out, and quality assessments were performed using the SYRCLE risk-of-bias tool. (3) Results: Ten studies met the inclusion criteria, involving various animal models, such as rabbits, pigs, dogs, and sheep. The findings demonstrated that residual alumina particles did not negatively impact osseointegration. Some studies reported accelerated bone growth and improved osseointegration with residual alumina. Additionally, residual alumina showed potential bactericidal properties, reducing bacterial adhesion. (4) Conclusions: The available evidence from animal studies suggests that residual alumina particles do not adversely affect the osseointegration and biocompatibility of dental implants. These particles may even enhance bone growth and reduce bacterial adhesion. However, due to the scarcity of human studies and the impracticality of histological assessments in humans, further research, including long-term clinical trials, is necessary to confirm these findings.

Published

2024

36. Identification of Clinical Value and Biological Effects of XIRP2 Mutation in Hepatocellular Carcinoma

Author

Dahuan Li, Xin Bao, Shan Lei, Wenpeng Cao, Zhirui Zeng, and Tengxiang Chen

Subjects

hepatocellular carcinoma (HCC), XIRP2, mutation, clinical value, biological effects, Biology (General), QH301-705.5

Abstract

Hepatocellular carcinoma (HCC) is a prevalent malignant digestive tumor. Numerous genetic mutations have been documented in HCC, yet the clinical significance of these mutations remains largely unexplored. The objective of this study is to ascertain the clinical value and biological effects of xin actin binding repeat containing 2 (XIRP2) mutation in HCC. The gene mutation landscape of HCC was examined using data from the Cancer Genome Atlas and the International Cancer Genome Consortium databases. The prognostic significance of the XIRP2 mutation was assessed through KM plot analysis. The association between drug sensitivity and the XIRP2 mutation was investigated using the TIDE algorithm and CCK-8 experiments. The biological effects of the XIRP2 mutation were evaluated through qRT-PCR, protein stability experiments, and relevant biological experiments. The XIRP2 mutation is one of the high-frequency mutations in HCC, and is associated with poor prognosis. A total of 72 differentially expressed genes (DEGs) were observed in HCC tissues with the XIRP2 mutation as compared to those with the XIRP2 wildtype, and these DEGs were closely related to ion metabolic processes. The XIRP2 mutation was linked to alterations in the sensitivity of fludarabine, oxaliplatin, WEHI-539, and LCL-161. CCK-8 assays demonstrated that HCC cells carrying the XIRP2 mutation exhibited increased resistance to fludarabine and oxaliplatin, but enhanced sensitivity to WEHI-539 and LCL-161 as compared with those HCC cells with the XIRP2 wildtype. The XIRP2 mutation was found to have no impact on the mRNA levels of XIRP2 in tissues and cells, but it did enhance the stability of the XIRP2 protein. Mechanically, the inhibition of XIRP2 resulted in a significant increase in sensitivity to oxaliplatin through an elevation in zinc ions and a calcium ion overload. In conclusion, the XIRP2 mutation holds potential as a biomarker for predicting the prognosis and drug sensitivity of HCC and serves as a therapeutic target to enhance the efficacy of oxaliplatin.

Published

2024

37. Phytochemical and Biological Effects of Acorus calamus (Acoraceae) in Traditional Medicine and Laboratory and Clinical Studies and Health Products

Author

Hamed Fathi, Mehdi Mogharabi Manzari, Mohammad Ali Ebrahimi, Golamreza Bakhshi Khaniki, and Abbas Gholipour

Subjects

acorus calamus, biological effects, phytochemical effects, traditional medicine, modern medicine, laboratory study, clinical research, Medicine, Medicine (General), R5-920

Abstract

Background and purpose: Plants have been known and used by different societies since ancient times. The most important applications include nutrition, medicine, and industry. Acorus calamus L. (Acoraceae), is one of the medicinal plants that exists in the Iran and some other ecotypes and is used as a medicinal plant also in China, India, and Greece. Recently, it received attention, however there is lack of information about this medicinal plant. Materials and methods: We performed a search in Scopus, Web of Science, PubMed, and Google Scholar and also traditional medicine books using the following keywords: A. calamus, traditional medicine, modern medicine, laboratory studies, and biological effects. Results: In reliable articles and traditional medicine books, A.calamus was found with many different properties. The aerial parts, roots, and rhizome were reported to have antioxidant, antibacterial, anti-fungal, and anti-inflammatory activities. A.calamus is also used in treating nervous system disorders and in production of nanoparticle and pharmaceutical products. Conclusion: According to many studies, A. calamus has many beneficial properties, but in vitro and in vivo studies are required to investigate its medicinal effects. Also, the plant is originally found in Mazandaran province, north of Iran and it can be used in medicinal and health products.

Published

2023

38. Toxicological assessment of ZnO-Vernonia amygdalina nanoparticle-treated Asa River water in albino rats

Author

Rotimi O. Arise, Ayokunmi A. Akinduko, Oluwasegun S. Maccarthy, Titilayo M. Olurombi, David C. Nwikwe, Saheed O. Akiode, Ganiyu O. Abdulraheem, and Omorefosa Osemwegie

Subjects

Water treatment, ZnO-Vernonia amygdalina nanoparticle (ZVAN), Biological effects, Physicochemical analysis, Pollutants, Science

Abstract

Traditional water purification methods are increasingly inadequate, leading to the exploration of novel approaches. This study investigated the application of plant-derived nanomaterials for heterogeneous photocatalytic water treatment using ZnO-Vernonia amygdalina nanoparticles (ZVAN). The study evaluated the efficacy of ZVAN in purifying Asa River water (ARW) and assessed its toxicological profile in rats. Synthesized ZVAN was characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). ARW samples were collected according to standard guidelines and their physicochemical and bacteriological properties were analyzed. ARW was treated with ZVAN and alum separately. The effects of both treatments on various hematological, liver, and kidney parameters in albino rats were compared after 30 days of daily administration. The total suspended matter (TSM) levels in untreated and treated ARW exceeded approved standards. ZVAN treatment effectively eliminated cadmium (Cd) from the water (from 0.1 ppm to 0). Thermotolerant coliforms and enteric bacteria were also undetectable in ZVAN-treated samples. Compared to the control group, untreated ARW significantly decreased red blood cell (RBC) count (6.86±0.56 vs 2.75±0.11, p

Published

2024

39. Evaluation of Cytogenetic Damage Induced during Hysterosalpingography Procedure: A Cross-sectional Study

Author

Sayali Satish Chodankar, R Vishakh, G Tamizh Selvan, Shashi Kumar Shetty, Savin K Vidyan, Amarja Pandurang Laad, and N Suchetha Kumari

Subjects

biological effects, cytokinesis blocked micronucleus, fallopian tubes, Medicine

Abstract

Introduction: Hysterosalpingography (HSG) is a radiographic procedure used to visualise the fallopian tubes and uterine cavity by injecting a contrast medium, commonly employed for diagnosing infertility cases. However, due to the associated radiographic and fluoroscopic exposure, there is an increased risk of chromosomal damage to the gonads. Aim: To investigate the impact of radiographic and fluoroscopic exposure on chromosomal integrity in peripheral blood lymphocytes using the Cytokinesis Blocked Micronucleus (CBMN) assay. Materials and Methods: This cross-sectional time-bound study included 10 patients (n=10) scheduled for HSG procedures at the Department of Radiology, Justice KS Hegde Hospital, Mangaluru, Karnataka, India from April 2021 to March 2022. Following radiation exposure, the CBMN assay was conducted to evaluate chromosomal damage in both test and control group blood samples. Blood samples from healthy donors were divided into three cryo vials, with one serving as the control and the remaining two exposed to radiation at the entrance and exit areas during the HSG procedure. The data were expressed as mean±Standard Deviation (SD). A p-value

Published

2024

40. Studies with chlorinated dibenzo-p-dioxins, polybrominated biphenyls and polychlorinated biphenyls in a two-stage system of mouse skin tumorigenesis: potent anti-carcinogenic effects

Author

Juchau, M.

Published

2020

41. Special type of UV-stimulated recombination in Haemophilus influenzae

Author

Santasier, L

Published

2020

42. PLASMA BIOMEDICINE: MODERN STATE-OF-ART AND PERSPECTIVES IN REGENERATIVE MEDICINE.

Author

A. K., МАRTUSEVICH, A. S., FEDOTOVA, A. V., SUROVEGINA, and V. V., NAZAROV

Subjects

COLD atmospheric plasmas, LOW temperature plasmas, REGENERATIVE medicine, REACTIVE oxygen species, COLD therapy

Abstract

The purpose of the review was a comprehensive analysis of the biological effects and applications of cold plasma. First of all, physical principles of cold atmospheric plasma, including generation of reactive oxygen and nitrogen species as intermediates, were discussed. The analysis of the specialized literature on plasma medicine as an innovative interdisciplinary direction allowed us to show the physical mechanisms of biological effects of cold plasma associated with the modulation of free radical processes in the biological objects. That is why correction of oxidative stress and other disorders of redox balance was determined as direct target of the effect of studied factor. Among the most significant aspects of the biological action of cold plasma, antibacterial and pro-regenerative activity, as well as modulation of apoptosis, should be cited. On this basis, the factor in question determines its application in oncology, surgery, dermatology and other fields of medicine. One of the most important effects of cold plasma was its antibacterial and antifungal activity, which in useful for wound healing, sterilization etc. Special attention was paid to possibilities of cold plasma therapy in combustiology. Molecular, tissue and systemic mechanisms of sanogenic effects of cold plasma was demonstrated and analyzed. Results of own studied in this field was observed. Further discovery of the biological effects of cold plasma can significantly expand the range of its medical applications. [ABSTRACT FROM AUTHOR]

Published

2023

43. The exact phenomenon and early signaling events of the endothelial cytoskeleton response to ultrasound.

Author

Zheng, Xiaobing, Gao, Zujie, Pan, Yunfan, Zhang, Shuguang, and Chen, Ruiqing

Subjects

*ULTRASONIC imaging, *CYTOSKELETON, *HIGH-intensity focused ultrasound, *ELECTRON microscope techniques, *ENDOTHELIAL cells

Abstract

Low-intensity ultrasound can be applied for medical imaging and disease treatment in clinical and experimental studies. However, the biological effects of ultrasound on blood vessels, especially endothelial cells (ECs) are still unclear. In this study, the laws of endothelial cytoskeleton changes under ultrasound induction are investigated. ECs are exposed to low-intensity ultrasound, and the cytoskeletal morphology is analyzed by a filamentous (F)-actin staining technique. We further analyze the characteristics of cytoskeleton rupture using indirect immunofluorescence techniques and cytoskeleton electron microscopy. Finally, the biological effects induced by ultrasound at the tissue level are investigated in an ex vivo blood-vessel model. Significant changes in cytoskeletal structure are detected when induced by ultrasound, including cytoskeletal rupture, blebbing and apoptosis. Moreover, a temporal threshold of ECs injury under different ultrasonic intensities is established. This study illustrates a pattern of significant changes in the cytoskeletal structure of ECs induced by ultrasound. The finding serves as a guide for selecting a safe threshold for clinical ultrasound applications. • Phenomenon and signaling events of the endothelial cytoskeleton response to ultrasound are elucidated. • The time threshold of cell injury under low frequency ultrasonic induction is presented. • The ultrasound-induced injury at the vascular tissue level increases vascular permeability. [ABSTRACT FROM AUTHOR]

Published

2023

44. Recent Developments in Procyanidins on Metabolic Diseases, Their Possible Sources, Pharmacokinetic Profile, and Clinical Outcomes.

Author

Zineb, Ould Yahia, Rashwan, Ahmed K., Karim, Naymul, Lu, Yang, Tangpong, Jitbanjong, and Chen, Wei

Subjects

*PROCYANIDINS, *FUNCTIONAL foods, *METABOLIC disorders, *SORGHUM, *TREATMENT effectiveness, *PHARMACOKINETICS, *FATTY liver, *NUTS

Abstract

Procyanidins (PCs) is member of the proanthocyanidins (or condensed tannins) class of flavonoids. They are oligomeric compounds, which can be formed from catechin and epicatechin molecules. PCs are abundant in our diet, including chocolate, apple, grapes, legumes, berries, peanuts, and others. Metabolic diseases (MD) are disorders that negatively alter the normal metabolic process, which can influence the ability of body cells to perform critical biochemical reactions (e.g. distribution of macronutrients such as proteins, fats, and carbohydrates). Obesity, diabetes, dyslipidemia, nonalcohol fatty liver disease, etc. are examples of MD. Thus, this review briefly summarized the rich sources, pharmacokinetic properties, and clinical outcomes of PCs. This comprehensively discussed the potential role of PCs against MD. PCs are abundant in dietary fruits, vegetables, nuts, legumes, and grains. Among all PCs sources, grape seeds, sorghum, chocolate, and apples have high concentrations. Based on available studies, PCs and PCs-rich foods have excellent biological effects against MD, e.g. antioxidant, anti-inflammatory, anti-obesity, anti-diabetic, cardioprotective, and neuroprotective effects. Among all effects of PCs, antioxidant, anti-obesity, and cardio-protectivity are promising. In conclusion, PCs or PC-rich food are promising bioactive compounds or components for the management of MD. Therefore, PCs or PCs-rich food can be used as potential ingredients for the development of functional foods with more health benefits and high consumer acceptability. [ABSTRACT FROM AUTHOR]

Published

2023

45. Current studies and potential future research directions on biological effects and related mechanisms of allicin.

Author

Xu, Shiyin, Liao, Yuxiao, Wang, Qi, Liu, Liegang, and Yang, Wei

Subjects

*NERVOUS system, *BLOOD sugar, *INTESTINAL infections, *OXIDATIVE stress, *BOTANY, *SULFONATES

Abstract

Allicin, a thiosulfonate extract from freshly minced garlic, has been reported to have various biological effects on different organs and systems of animals and human. It can reduce oxidative stress, inhibit inflammatory response, resist pathogen infection and regulate intestinal flora. In addition, dozens of studies also demonstrated allicin could reduce blood glucose level, protect cardiovascular system and nervous system, and fight against cancers. Allicin was widely used in disease prevention and health care. However, more investigations on human cohort study are needed to verify the biological or clinical effects of allicin in the future. In this review, we summarized the biological effects of allicin from previous outstanding and valuable studies and provided useful information for future studies on the health effects of allicin. [ABSTRACT FROM AUTHOR]

Published

2023

46. Recent progress of metal‐based nanomaterials with anti‐tumor biological effects for enhanced cancer therapy.

Author

Lei, Huali, Pei, Zifan, Jiang, Chenyu, and Cheng, Liang

Subjects

T cell receptors, NANOSTRUCTURED materials, CANCER treatment, BLEPHAROPTOSIS, CELL differentiation

Abstract

Metal‐based nanomaterials have attracted broad attention recently due to their unique biological physical and chemical properties after entering tumor cells, namely biological effects. In particular, the abilities of Ca2+ to modulate T cell receptors activation, K+ to regulate stem cell differentiation, Mn2+ to activate the STING pathway, and Fe2+/3+ to induce tumor ferroptosis and enhance catalytic therapy, make the metal ions and metal‐based nanomaterials play crucial roles in the cancer treatments. Therefore, due to the superior advantages of metal‐based nanomaterials and the characteristics of the tumor microenvironment, we will summarize the recent progress of the anti‐tumor biological effects of metal‐based nanomaterials. Based on the different effects of metal‐based nanomaterials on tumor cells, this review mainly focuses on the following five aspects: (1) metal‐enhanced radiotherapy sensitization, (2) metal‐enhanced catalytic therapy, (3) metal‐enhanced ferroptosis, (4) metal‐enhanced pyroptosis, and (5) metal‐enhanced immunotherapy. At the same time, the shortcomings of the biological effects of metal‐based nanomaterials on tumor therapy are also discussed, and the future research directions have been prospected. The highlights of promising biosafety, potent efficacy on biological effects for tumor therapy, and the in‐depth various biological effects mechanism studies of metal‐based nanomaterials provide novel ideas for the future biological application of the nanomaterials. [ABSTRACT FROM AUTHOR]

Published

2023

47. Effects of radiofrequency electromagnetic radiation with a focus on haematology parameters: a brief review and future research needs.

Author

Žura, N., Žaja, I. Žura, Perić, P., Malarić, K., Tur, S. Milinković, Milas, N. Poljičak, Rimac, V., Hlede, J. Pejaković, Kunštek, S., Pećin, M., and Vilić, M.

Abstract

Copyright of Veterinarska Stanica is the property of Croatian Veterinary Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

48. The Potential of Cold Atmospheric Pressure Plasmas for the Direct Degradation of Organic Pollutants Derived from the Food Production Industry

Author

Piotr Cyganowski, Dominik Terefinko, Agata Motyka-Pomagruk, Weronika Babinska-Wensierska, Mujahid Ameen Khan, Tymoteusz Klis, Wojciech Sledz, Ewa Lojkowska, Piotr Jamroz, Pawel Pohl, Magda Caban, Monica Magureanu, and Anna Dzimitrowicz

Subjects

non-thermal plasma, reactive oxygen and nitrogen species, catalysts, biological effects, multidrug resistance, environmental impact, Organic chemistry, QD241-441

Abstract

Specialized chemicals are used for intensifying food production, including boosting meat and crop yields. Among the applied formulations, antibiotics and pesticides pose a severe threat to the natural balance of the ecosystem, as they either contribute to the development of multidrug resistance among pathogens or exhibit ecotoxic and mutagenic actions of a persistent character. Recently, cold atmospheric pressure plasmas (CAPPs) have emerged as promising technologies for degradation of these organic pollutants. CAPP-based technologies show eco-friendliness and potency for the removal of organic pollutants of diverse chemical formulas and different modes of action. For this reason, various types of CAPP-based systems are presented in this review and assessed in terms of their constructions, types of discharges, operating parameters, and efficiencies in the degradation of antibiotics and persistent organic pollutants. Additionally, the key role of reactive oxygen and nitrogen species (RONS) is highlighted. Moreover, optimization of the CAPP operating parameters seems crucial to effectively remove contaminants. Finally, the CAPP-related paths and technologies are further considered in terms of biological and environmental effects associated with the treatments, including changes in antibacterial properties and toxicity of the exposed solutions, as well as the potential of the CAPP-based strategies for limiting the spread of multidrug resistance.

Published

2024

49. Increasing Risks to the Health of the Invertebrates—Balancing between Harm and Benefit

Author

Tatiana V. Kuznetsova, Valentina A. Kudryavtseva, and Larisa L. Kapranova

Subjects

surfactants, sanitizers, heavy metals, biological effects, legislation and nature protection, non-invasive monitoring methods, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The article discusses the issue of extensive use of detergents and sanitizers in the time of new challenges associated with the COVID-19 (SARS-CoV-2) pandemic. These agents could pose threats to the existence of free-living invertebrates as essential components of the ecosystem. The biological effects of the mentioned classes of substances, their metabolites, and combined effects in the mixture have not been studied enough. The main challenges in trying to balance the threats and benefits of using such substances are the lack of knowledge of the biological effects of these products, the gaps in testing invertebrates’ responses, and changes in environment-related regulations to minimize risks to animals and humans. Numerous studies in this field still leave research gaps, particularly concerning the combined toxicity of well-known and widely used disinfectants, surfactants, and heavy metals, posing potential future challenges. Additionally, the review identified the need for additional testing of invertebrates for their sensitivity to disinfectants and surfactants of different compositions, including improved (non-invasive) methods, studies for early life stages, and comparative studies of species resilience.

Published

2024

50. Advances in Research on the Activity Evaluation, Mechanism and Structure-Activity Relationships of Natural Antioxidant Peptides

Author

Baoting Xu, Qin Dong, Changxia Yu, Hongyu Chen, Yan Zhao, Baosheng Zhang, Panling Yu, and Mingjie Chen

Subjects

natural antioxidant peptides, activity evaluation, antioxidant mechanism, structure-activity relationship, biological effects, redox signaling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

Antioxidant peptides are a class of biologically active peptides with low molecular weights and stable antioxidant properties that are isolated from proteins. In this review, the progress in research on the activity evaluation, action mechanism, and structure-activity relationships of natural antioxidant peptides are summarized. The methods used to evaluate antioxidant activity are mainly classified into three categories: in vitro chemical, in vitro cellular, and in vivo animal methods. Also, the biological effects produced by these three methods are listed: the scavenging of free radicals, chelation of metal ions, inhibition of lipid peroxidation, inhibition of oxidative enzyme activities, and activation of antioxidant enzymes and non-enzymatic systems. The antioxidant effects of natural peptides primarily consist of the regulation of redox signaling pathways, which includes activation of the Nrf2 pathway and the inhibition of the NF-κB pathway. The structure-activity relationships of the antioxidant peptides are investigated, including the effects of peptide molecular weight, amino acid composition and sequence, and secondary structure on antioxidant activity. In addition, four computer-assisted methods (molecular docking, molecular dynamics simulation, quantum chemical calculations, and the determination of quantitative structure-activity relationships) for analyzing the structure-activity effects of natural peptides are summarized. Thus, this review lays a theoretical foundation for the development of new antioxidants, nutraceuticals, and cosmetics.

Published

2024