Your search keyword '"Chemical safety"' showing total 3,805 results

1. FGTN: Fragment-based graph transformer network for predicting reproductive toxicity.

Author

Ren, Jia-Nan, Chen, Qiang, Ye, Hong-Yu-Xiang, Cao, Cheng, Guo, Ya-Min, Yang, Jin-Rong, Wang, Hao, Khan, Muhammad Zafar Irshad, and Chen, Jian-Zhong

Subjects

*MACHINE learning, *GRAPH neural networks, *RECEIVER operating characteristic curves, *TRANSFORMER models, *CHEMICAL safety

Abstract

Reproductive toxicity is one of the important issues in chemical safety. Traditional laboratory testing methods are costly and time-consuming with raised ethical issues. Only a few in silico models have been reported to predict human reproductive toxicity, but none of them make full use of the topological information of compounds. In addition, most existing atom-based graph neural network methods focus on attributing model predictions to individual nodes or edges rather than chemically meaningful fragments or substructures. In current studies, we develop a novel fragment-based graph transformer network (FGTN) approach to generate the QSAR model of human reproductive toxicity by considering internal topological structure information of compounds. In the FGTN model, the compound is represented by a graph architecture using fragments to be nodes and bonds linking two fragments to be edges. A super molecule-level node is further proposed to connect all fragment nodes by undirected edges, obtaining global molecular features from fragment embeddings. The FGTN model achieved an accuracy (ACC) of 0.861 and an area under the receiver operating characteristic curve (AUC) value of 0.914 on nonredundant blind tests, outperforming traditional fingerprint-based machine learning models and atom-based GCN model. The FGTN model can attribute toxic predictions to fragments, generating specific structural alerts for the positive compound. Moreover, FGTN may also have the capability to distinguish various chemical isomers. We believe that FGTN can be used as a reliable and effective tool for human reproductive toxicity prediction in contribution to the advancement of chemical safety assessment. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of larval instar and post‐harvest treatments on heavy metals in BSFL and frass reared on commercial food waste streams.

Author

Alagappan, Shanmugam, Mallard, Sam, Cozzolino, Daniel, Mikkelsen, Deirdre, James, Peter, Mantilla, Sandra Olarte, Yarger, Olympia, and Hoffman, Louwrens

Subjects

*HERMETIA illucens, *FOOD waste, *ORGANIC wastes, *HEAVY metals, *CHEMICAL safety, *BREAD

Abstract

Summary: The use of black soldier fly larvae (BSFL) to valorise different organic waste streams and the subsequent use of resulting larvae as a feedstock ingredient is increasing rapidly in several regions across the globe. The lack of knowledge about several safety issues including chemical contaminants (e.g. heavy metals) seems to affect the upscaling and commercialisation of this product. This study evaluates the safety of the BSFL against chemical contaminants including heavy metals and mycotoxins in both BSFL and frass samples reared with different food waste streams (e.g. soy waste, customised bread‐vegetable diet, food waste mixture, supermarket and childcare centre) from two commercial production facilities. The effect of larval instars and post‐harvest treatments (e.g. blanching and drying) on the safety of the BSFL was also investigated. The concentration of heavy metals was primarily influenced by the concentration in the food waste streams. The concentration was also higher in 6th instar compared to 5th instar larvae. The effect of blanching and drying have a varied effect on the concentration of heavy metals. Mycotoxins were found to be below the limit of quantification for all samples. The outcomes of this study indicated that BSFL grown on food waste streams and the resulting frass is safe against different heavy metals analysed. The findings of this study will assist the commercial BSFL manufacturers with the identification of relevant control points to ensure the chemical safety of their products. Therefore, encourage the use of different food waste streams as feedstock for rearing BSFL. [ABSTRACT FROM AUTHOR]

Published

2024

3. Pesticides as an overlooked exposomic association in allergic asthma exacerbations: A nationwide database study.

Author

Vitte, Joana, Bouazzi, Leila, Barbe, Coralie, Pham, Bach‐Nga, and Sanchez, Stéphane

Subjects

*URBAN density, *GLOBAL burden of disease, *CHEMICAL safety, *INDOOR air pollution, *ASTHMATICS

Abstract

The article explores the association between pesticide exposure and allergic asthma exacerbations, focusing on non-occupational pesticide exposure as a potential risk factor. A nationwide database study in France found that patients hospitalized for allergic asthma had higher exposure to pesticides compared to those with non-allergic asthma. The study suggests that higher pesticide exposure may contribute to hospital stays for allergic asthma, particularly in urban residents, highlighting the need for further research on personalized strategies for asthma prevention and management. [Extracted from the article]

Published

2024

4. The digital evolution in toxicology: pioneering computational education for emerging challenges.

Author

Wang, Jin and Li, Jianxiang

Subjects

CHEMICAL safety, ANIMAL experimentation, HIGH throughput screening (Drug development), BIOTECHNOLOGY, SOFTWARE development tools

Abstract

The educational landscape of toxicology is increasingly integrating computational methodologies due to ethical concerns about animal testing and advancements in biotechnological and data analysis tools. This paper examines the evolution and significance of the Toxicology in the 21st century (Tox21) initiative and its impact on computational toxicology education. It contrasts computational toxicology with traditional methods, highlighting the limitations of conventional approaches and the new perspectives offered by computational techniques. The study emphasizes the importance of incorporating computational toxicology into curricula, including case studies that demonstrate how this integration enhances students' problem-solving abilities, real-time data analysis skills, and innovation capabilities. Furthermore, it outlines effective teaching content and methods, including software tools, online resources, and academic literature. The paper also addresses the challenges and limitations faced in this educational shift and explores prospects for advancing computational toxicology education. By documenting these developments, the study aims to clarify the current advancements in toxicology education and the preparedness of students to address global chemical safety challenges with innovative solutions. [ABSTRACT FROM AUTHOR]

Published

2024

5. Potential mammary carcinogens used in food contact articles: implications for policy, enforcement, and prevention.

Author

Parkinson, Lindsey V., Geueke, Birgit, and Muncke, Jane

Subjects

HAZARDOUS substances, CHEMICAL safety, CARCINOGENS, FOOD packaging, BREAST cancer

Abstract

Many nations have food contact material (FCM) legislation purporting to protect citizens from hazardous chemicals, often specifically by regulating genotoxic carcinogens. Despite such regulations, cancers that are associated with harmful chemical exposures are highly prevalent, especially breast cancer. Using the novel Key Characteristics of Toxicants framework, Kay et al. found 921 substances that are potential mammary carcinogens. By comparing Kay et al.'s chemicals list with our own Database on migrating and extractable food contact chemicals (FCCmigex), we found that 189 (21%) of the potential mammary carcinogens have been measured in FCMs. When limiting these results to migration studies published in 2020-2022, 76 potential mammary carcinogens have been detected to migrate from FCMs sold in markets across the globe, under realistic conditions of use. This implies that chronic exposure of the entire population to potential mammary carcinogens from FCMs is the norm and highlights an important, but currently underappreciated opportunity for prevention. Reducing population-wide exposure to potential mammary carcinogens can be achieved by science-based policy amendments addressing the assessment and management of food contact chemicals. [ABSTRACT FROM AUTHOR]

Published

2024

6. 产教融合驱动高校危险化学品安全管理与人才培养研究.

Author

魏恒伟, 赵立秋, 耿继强, 徐学波, 马英鹏, 刘宇昊, 韩明哲, 焦桓, and 魏灵灵

Subjects

*HAZARDOUS substances, *INFORMATION resources management, *SAFETY education, *CHEMICAL safety, *LABORATORY safety

Abstract

University laboratories serve as crucial platforms for experimental teaching, scientific research, and practical education, tasked with the dual responsibilities of talent cultivation and contributing to national advancements in science and technology. The complexities, unique characteristics, and inherent risks of experimental environments, particularly regarding the use of hazardous chemicals, have emerged as significant contributors to experimental safety incidents and pose major hidden dangers. Consequently, the management and safety of laboratory environments have become central to university safety initiatives. This article examines the safety management and practical application of hazardous chemicals in universities, emphasizing the cultivation of applied talents in experimental safety disciplines, while taking into account the specific contexts of schools and colleges. It explores three key areas: the establishment of a hazardous chemical safety management system, optimization of safety prevention mechanisms, and the exploration of talent cultivation models that integrate industry and education. The study presents a comprehensive strategy for hazardous chemical management that encompasses safety education, a responsibility framework, an information resource library and management platform, as well as protocols for storage, usage, and emergency response. Additionally, through collaboration with enterprises in school-enterprise partnerships and practical training, we propose an educational model designed to enhance students' practical innovation capabilities and foster the development of applied professionals in chemistry and chemical engineering. This research aims to provide insights for the reform of hazardous chemical safety management and the cultivation of innovative talent in university laboratories. [ABSTRACT FROM AUTHOR]

Published

2024

7. 高校实验室危化品安全管理的建设与思考.

Author

张东霞, 郝思佳, 王嘉瑞, 王继伟, 董小刚, and 焦亮

Subjects

*LABORATORY safety, *HAZARDOUS substances, *SAFETY education, *CHEMICAL safety, *LIFE cycles (Biology)

Abstract

Laboratory safety is a crucial foundation for talent cultivation and scientific innovation in universities. However, the management of hazardous chemicals remains a significant weak point in university laboratory safety. This paper analyzes the current state of hazardous chemical management in university laboratories and proposes feasible measures to enhance this management. These measures include safety education and access control, the establishment of a robust laboratory safety culture, and the implementation of full life cycle traceability management for hazardous chemicals. The goal is to further standardize hazardous chemical safety management in university laboratories, mitigate safety risks, and ensure the smooth operation of these facilities. [ABSTRACT FROM AUTHOR]

Published

2024

8. Prediction of Flash Point of Materials Using Bayesian Kernel Machine Regression Based on Gaussian Processes With LASSO‐Like Spike‐and‐Slab Hyperprior.

Author

Jeong, Keunhong, Hyun Nam, Ji, Lee, Seul, Koo, Jahyun, Lee, Jooyeon, Yu, Donghyun, Jo, Seongil, and Kim, Jaeoh

Subjects

*KRIGING, *CHEMICAL safety, *GAUSSIAN processes, *SUPPORT vector machines, *FIX-point estimation

Abstract

The determination of flash points is a critical aspect of chemical safety, essential for assessing explosion hazards and fire risks associated with flammable solutions. With the advent of new chemical blends and the increasing complexity of chemical waste management, the need for accurate and reliable flash point prediction methods has become more pronounced. This study introduces a novel predictive approach using Bayesian kernel machine regression (BKMR) with Gaussian process priors, designed to meet the growing demand for precise flash point estimation in the context of chemical safety. The BKMR model, underpinned by Bayesian statistics, offers a comprehensive framework that not only quantifies prediction uncertainty but also enhances interpretability amidst experimental data variability. Our comparative analysis reveals that BKMR surpasses traditional predictive models, including support vector machines, kernel ridge regression, and Gaussian process regression, in terms of accuracy and reliability across multiple metrics. By elucidating the intricate interactions between molecular features and flash point properties, the BKMR model provides profound insights into the chemical dynamics that influence flash point determinations. This study signifies a methodological leap in flash point prediction, offering a valuable tool for chemical safety analysis and contributing to the development of safer chemical handling and storage practices. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fighting forever chemicals.

Author

PETERS, JOANNE

Subjects

ENVIRONMENTAL exposure prevention, HEALTH information services, BONE density, CHEMICAL safety, HOME accident prevention, HOME environment, FOOD contamination, COMMERCIAL product evaluation, TOXIC substance exposure, ENVIRONMENTAL exposure, POLLUTANTS, HOUSEHOLD supplies, WATER pollution, FLUOROCARBONS, MEDICINE information services, DIETARY supplements, DIET

Published

2024

10. Benefits of customizing dust hazard controls to meet your needs.

Author

Gaither, Edward

Subjects

FAILURE mode & effects analysis, FAULT trees (Reliability engineering), BULK solids, DUST control, CHEMICAL safety

Abstract

The OSHA Combustible Dust National Emphasis Program (NEP), recent studies commissioned by the National Fire Protection Association (NFPA) Research Foundation and U.S. Chemical Safety and Hazard Investigation Board (CSB), as well as emphasis by insurance companies have brought more urgency to combustible dust safety. NFPA standards are being revised for consistency and clarity of standards for combustible dust safety. While that is a significant improvement from conditions of past decades, the situation can be improved even more by implementing risk‐based methods to help develop application‐specific explosion protection. Many facilities that handle combustible particulate solids follow prescriptive requirements of applicable NFPA standards, especially for new installations. Decisions are often driven primarily by meeting codes and standards with minimum capital cost. Legacy installations that do not meet current standards typically claim "grandfather" status as the reason for not implementing the current standard requirement or good engineering practice. The goal of this paper is to present a method of adapting the familiar process safety risk matrix to assess likelihood of a deflagration event rather than the overall the risk of a consequence. This method provides an objective basis to assist staff of a legacy facility to make decisions to prioritize capital improvement projects, to follow current good engineering practice, and to stop relying on "grandfather" status. This paper makes the broad, practical assumption that any deflagration event has serious consequences. The magnitude of those consequences may vary based on facility siting, deflagration area of effect, population of personnel in the affected area, or business criticality of affected equipment and structures. Decisions based solely on the likelihood matrix may inadvertently prioritize a more likely, but less consequential, concern over an event that may put multiple people at risk, or have serious commercial implications. Methods such as Hazard and Operability Study (HAZOP), Failure Modes and Effects Analysis (FMEA), Fault Tree Analysis (FTA) and Layer of Protection Analysis (LOPA) are useful to more comprehensively understand risks. Flexible, outside‐the‐box thinking in applying safeguards, Independent Protection Layers (IPLs), administrative controls, and facility siting may provide a better solution than merely following prescriptive code without making the effort to fully understand the hazard. [ABSTRACT FROM AUTHOR]

Published

2024

11. A High-Throughput Method for Quantifying Drosophila Fecundity.

Author

Gomez, Andreana, Gonzalez, Sergio, Oke, Ashwini, Luo, Jiayu, Duong, Johnny B., Esquerra, Raymond M., Zimmerman, Thomas, Capponi, Sara, Fung, Jennifer C., and Nystul, Todd G.

Subjects

FRUIT flies, DROSOPHILA melanogaster, REPRODUCTIVE toxicology, CHEMICAL safety, CHEMICAL testing

Abstract

The fruit fly, Drosophila melanogaster, is an experimentally tractable model system that has recently emerged as a powerful "new approach methodology" (NAM) for chemical safety testing. As oogenesis is well conserved at the molecular and cellular level, measurements of Drosophila fecundity can be useful for identifying chemicals that affect reproductive health across species. However, standard Drosophila fecundity assays have been difficult to perform in a high-throughput manner because experimental factors such as the physiological state of the flies and environmental cues must be carefully controlled to achieve consistent results. In addition, exposing flies to a large number of different experimental conditions (such as chemical additives in the diet) and manually counting the number of eggs laid to determine the impact on fecundity is time-consuming. We have overcome these challenges by combining a new multiwell fly culture strategy with a novel 3D-printed fly transfer device to rapidly and accurately transfer flies from one plate to another, the RoboCam, a low-cost, custom-built robotic camera to capture images of the wells automatically, and an image segmentation pipeline to automatically identify and quantify eggs. We show that this method is compatible with robust and consistent egg laying throughout the assay period and demonstrate that the automated pipeline for quantifying fecundity is very accurate (r2 = 0.98 for the correlation between the automated egg counts and the ground truth). In addition, we show that this method can be used to efficiently detect the effects on fecundity induced by dietary exposure to chemicals. Taken together, this strategy substantially increases the efficiency and reproducibility of high-throughput egg-laying assays that require exposing flies to multiple different media conditions. [ABSTRACT FROM AUTHOR]

Published

2024

12. Research progress in the development of 3D skin models and their application to in vitro skin irritation testing.

Author

Lu, Hongxia, Zuo, Xulei, Yuan, Jiayu, Xie, Zhuoying, Yin, Lihong, Pu, Yuepu, Chen, Zaozao, and Zhang, Juan

Subjects

CHEMICAL safety, ANIMAL experimentation, HAZARDOUS substances, SKIN tests, PHYSICAL mobility

Abstract

Toxicological assessment of chemicals is crucial for safeguarding human health and the environment. However, traditional animal experiments are associated with ethical, technical, and predictive limitations in assessing the toxicity of chemicals to the skin. With the recent development of bioengineering and tissue engineering, three‐dimensional (3D) skin models have been commonly used as an alternative for toxicological studies. The skin consists of the subcutaneous, dermis, and epidermis. All these layers have crucial functions such as physical and biological protection and thermoregulation. The epidermis is the shallowest layer protecting against external substances and media. Because the skin is the first contact point for many substances, this organ is very significant for assessing local toxicity following skin exposure. According to the classification of the United Nations Global Harmonized System, skin irritation is a major potentially hazardous characteristic of chemicals, and this characteristic must be accurately assessed and classified for enhancing chemical safety management and preventing and reducing chemical accidents. This review discusses the research progress of 3D skin models and introduces their application in assessing chemical skin irritation. Assessing chemical toxicity is essential for maintaining the safety of the human health and environment. Traditional animal experiments face ethical, technical, and predictive limitations, the application of alternative models becomes critical. This review focuses on and summarizes the research progress of 3D skin models and their application in the assessment of chemical‐induced skin irritation, providing a basis for the development of in vitro models and their application to skin irritation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Chemical Risk Assessment for Small Businesses: Development of the Chemical Hazard Assessment and Prioritization Risk (CHAP-Risk) Tool.

Author

Tenkate, Thomas, Kramer, Desre M., Drolet, Daniel, Strahlendorf, Peter, Peters, Cheryl E., Candeloro, Sana, and Holness, D. Linn

Subjects

HEALTH risk assessment, THRESHOLD limit values (Industrial toxicology), CHEMICAL safety, RISK assessment, CHEMICAL potential, ELECTRONIC spreadsheets

Abstract

Featured Application: The CHAP-Risk tool uses information from Safety Data Sheets to undertake 'hazard banding' to assess the hazard potential of chemicals while also using basic information on how chemicals are used to assess the risk posed to workers. There are a large number of chemicals commercially available, but relatively few have legislated occupational exposure limits. Assessing the hazard and risk posed by most chemicals used in the workplace is therefore challenging, especially for small workplaces. This paper describes the development of an easy-to-use MS Excel spreadsheet-based tool (called CHAP-Risk) designed to assist small businesses to undertake a simple assessment of the health and safety risks posed by the chemicals they use. We developed the CHAP-Risk tool through engaging an expert review panel and undertaking a detailed review of existing tools, and by validating a trial version which was piloted by six workplaces and 59 workers. We received multiple rounds of feedback from key experts and end-users, and in response, through 58 versions, refined CHAP-Risk to produce the final free public-release version of the tool. Workplace participants thought that the CHAP-Risk tool would be useful in improving worker and employers' understanding of workplace chemical risks. However, because this tool required users to have more in-depth knowledge of workplaces' processes, there was mixed feedback on its usability: those with OHS training were very positive, while others thought it would be too difficult for shop-floor workers to use. [ABSTRACT FROM AUTHOR]

Published

2024

14. Assessment of glove stretch and storage temperature on fentanyl permeation: Implications for standard test methods and PPE recommendations.

Author

Fisher, Edward M., Streeter, Rebecca T., Hofacre, Kent C., Greenawald, Lee Ann, Yoon, N. Katherine, Soo, Jhy-Charm, and Keyes, Patrick H.

Subjects

*PROTECTIVE clothing standards, *MATERIALS testing, *PERSONAL protective equipment, *CHEMICAL safety, *PERMEABILITY, *OCCUPATIONAL exposure, *DISPOSABLE medical devices, *TENSILE strength, *GLOVES, *TEMPERATURE, *ORGANIC compounds, *FENTANYL, *INDUSTRIAL safety, *INDUSTRIAL hygiene, *STANDARDS

Abstract

The National Institute for Occupational Safety and Health recommends the use of nitrile gloves with a minimum thickness of 5.0 ± 2.0 mil [0.127 ± 0.051 millimeters] in situations where it is suspected or known that fentanyl or other illicit drugs are present. However, there is limited data available on fentanyl permeation through gloves. Current test methods used to measure fentanyl permeation do not consider the effect of glove fit and flexion. Furthermore, first responders need to have PPE readily available in the field, and storage conditions may affect the protective performance of the gloves. The objective of this study was to evaluate the effects of glove stretch and storage temperatures on glove durability and barrier performance against fentanyl. Nine nitrile glove models previously shown to be resistant to fentanyl permeation were selected for this investigation. These nine models were stretched 25% in one linear direction, to consider glove fit and flexion, and tested against fentanyl hydrochloride permeation. Additionally, four of the nine glove models were stored at 48 °C, 22 °C, and −20 °C, and evaluated for tensile strength, ultimate elongation, and puncture resistance after up to 16 wk of storage and fentanyl permeation after up to 8 wk of storage. At least one sample for six of the nine tested models had maximum permeation over the test method fail threshold when stretched. The tested storage temperatures showed no effect on glove tensile strength, ultimate elongation, and puncture resistance. The findings of this study can be used to inform PPE recommendations, with consideration to storage practices and proper sizing for first responders with potential exposure to fentanyl and other illicit drugs. The results of this study can be used to assess the need for new standard test methods to evaluate the barrier performance of gloves and shelf-life determination with consideration to glove fit. [ABSTRACT FROM AUTHOR]

Published

2024

15. Laboratory features in acute paediatric poisoning with liquid laundry detergent capsules: a seven-year retrospective study in Romania.

Author

Nitescu, Gabriela Viorela, Lescaie, Andreea, Ilisei, Ioana, Ulmeanu, Alexandru, Baconi, Luiza, Craciun, Dorina, Chivu, Carmen Daniela, Preda, Diana Monica, and Ulmeanu, Coriolan

Subjects

*LAUNDRY detergents, *ACID-base imbalances, *POISONING, *LEUKOCYTE count, *CHEMICAL safety, *POISONS

Abstract

The epidemiological and clinical characteristics of acute poisoning with liquid laundry detergent capsules have been comprehensively reported. However, studies of laboratory test results in these exposures are uncommon. This study analyzed the impact of the ingestion of liquid laundry detergent capsules on admission laboratory tests in paediatric patients. This retrospective study was conducted in the clinical toxicology unit of a paediatric poison centre between 2015 and 2021. Paediatric patients (less than 18 years of age) who ingested liquid laundry detergent capsules were included. The relationship between the European Association of Poisons Centers and Clinical Toxicologists/European Commission/International Programme on Chemical Safety Poisoning Severity Score and admission laboratory test results was assessed using Fisher's exact test or analysis of variance. A total of 156 patients were included in the study. A considerable proportion of patients presented with leucocytosis, acidosis, hyperlactataemia or base deficit. The median values of white blood cell count (P = 0.042), pH (P = 0.022), and base excess (P = 0.013) were significantly different among the Poisoning Severity Score groups. Hyperlactataemia was strongly associated with the Poisoning Severity Score (P = 0.003). Leucocytosis is a non-specific marker of severity following ingestion of liquid laundry detergent capsules. The incidence of metabolic acidosis and hyperlactataemia was higher in this study than in previous reports, but these metabolic features were not related to the severity of exposure. The exact mechanisms of toxicity are not yet known, but the high concentration of non-ionic and anionic surfactants, as well as propylene glycol and ethanol, in the capsule are likely contributing factors. Pediatric patients who ingest liquid laundry detergent capsules may develop leucocytosis, metabolic acidosis, hyperlactataemia, and a base deficit. [ABSTRACT FROM AUTHOR]

Published

2024

16. Heterocyclic Amines in Meat and Meat Products: Occurrence, Formation, Mitigation, Health Risks and Intervention.

Author

Geng, Yaqian, Xie, Yingfeng, Li, Wei, Ji, Junfu, Chen, Fang, Liao, Xiaojun, Hu, Xiaosong, and Ma, Lingjun

Subjects

*MEAT, *POISONS, *CHEMICAL safety, *HAZARD mitigation, *AMINES, *MAILLARD reaction

Abstract

Chemical safety of meat and meat products has gained great attention due to increasing contamination incidents. Contaminations produced during meat processing pose a threat to human health. Heterocyclic amines (HAAs) are common contaminants in thermally processed meat products and Maillard reactions play an essential role in their formation. The production of HAAs highly relies on precursors in raw meats and processing conditions, which can be modified to attenuate HAAs. Moreover, exogenous components exert inhibitory effects on HAAs. HAAs have been demonstrated to have multiple toxic effects on human health, including neurotoxicity, mutagenicity and carcinogenicity. Fortunately, phenolic compounds and natural extracts can effectively intervene with their toxicity. Therefore, this review intends to provide a comprehensive understanding of formation mechanisms of HAAs in meat products, based on which potential mitigation strategies are summarized to minimize their generation during thermal processing. Also, the toxicity of HAAs and its intervention by natural compounds are presented, consequently providing theoretical references for lowering health threats on humans. [ABSTRACT FROM AUTHOR]

Published

2024

17. The role of European chemical manufacturing companies in promoting effective communication of conditions of safe use by workers.

Author

Urbanus, Jan, Nij, Evelyn Tjoe, and Tietz, Cornelia

Subjects

*CHEMICAL safety, *INTERPROFESSIONAL relations, *MANUFACTURING industries, *OCCUPATIONAL exposure, *COMMUNICATION, *INDUSTRIAL safety, *GOVERNMENT regulation

Abstract

In 2006, the revised chemicals management legislation mandated that manufacturers of hazardous chemical substances conduct risk assessments for the entire substance life cycle. Additionally, they must communicate use-specific safe handling advice (exposure scenarios) to their customer, as annex to the Safety Data Sheet (SDS). Despite significant efforts to develop workable solutions for chemical mixtures, this goal has not yet been fully achieved. Therefore, a Cefic research project (LRI B23) was commissioned on how to ensure meaningful health risk communication for workers across supply chains. The research project determined that risk-based safe use advice generated by manufacturers, often does not reach the intended end-user and was seen as not tailored to specific user needs. Recipients of the advice are also not prepared to act based on information developed by suppliers. From an industry perspective, the complexity of supply chains and substance life cycles are considered major barriers for effective safe use communication. Exposure scenarios for substance use in industrial work environments are often perceived as adding little value compared to existing safe use arrangements required by other health, safety, and environmental legislation applicable to employers and duty-holders. To attain meaningful use-specific safe handling advice for workers, including those at non-industrial premises who may benefit most from such advice, knowledge transfer and close collaboration between manufacturers and formulators remain key elements, supported by enhanced regulatory appreciation. [ABSTRACT FROM AUTHOR]

Published

2024

18. Assessing the impact of authorisation process as a regulatory tool in the European REACH regulation: A study on improving occupational safety for applying companies.

Author

Deubner, Holger-Lars, Walendzik, Gudrun, Lüdeke, Andreas, and Schlüter, Urs

Subjects

*MANUFACTURING industries -- Law & legislation, *RISK assessment, *CHEMICAL safety, *RISK management in business, *TOXICOLOGY, *OCCUPATIONAL exposure, *HAZARDOUS substances, *GOVERNMENT regulation, *INDUSTRIAL safety, *INDUSTRIAL hygiene

Abstract

This study looks into the effectiveness of the authorisation procedure as a regulatory instrument within the framework of the European REACH regulation. It highlights its impact on enhancing occupational safety and health for both applicants and companies utilising the substances. This procedure encompasses manufacturers, importers, and downstream users of substances, as well as representatives of foreign manufacturers who are also eligible to seek authorisation. When applying for authorisation, the ECHA Risk Assessment Committee (RAC) assesses the risks associated with the intended uses of the substance, including the appropriateness and effectiveness of the Occupational Conditions (OCs) and Risk Management Measures (RMMs) described in the application and the risks posed by potential alternatives. If the RAC determines that the OCs/RMMs are inadequate for managing or controlling the risk, or if the measures to protect workers are deemed insufficient, it may recommend additional measures to enhance occupational safety and health or environmental protection. The 398 processed Applications for Authorisation (AfA) that have been submitted to date were examined to determine these recommended measures, categorised as Conditions for use, Monitoring arrangements, and Recommendations for Review Reports. Overall, a significant improvement concerning occupational safety and health seems necessary, as indicated by the large number of measures recommended by the ECHA Committee for Risk Assessment (RAC) and ECHA Committee for Socio-economic Analysis (SEAC) or supplemented by the European Commission. In addition to the proposed measures, a short assessment provided by the committees as to whether the operational conditions and risk management measures are adequate in controlling the risks is also included in the study. [ABSTRACT FROM AUTHOR]

Published

2024

19. Assessing the safety of chemical management practices in academic laboratories in Hargeisa, Somaliland

Author

Mohamed Abdullahi Omer

Subjects

Chemical management, assessment, chemical safety, academic laboratories, Hargeisa, Somaliland, Education (General), L7-991

Abstract

This study assessed chemical safety management in academic laboratories in Hargeisa, Somaliland. Hence, this study aims to assess the level of chemical laboratory safety practices, chemical inventory and record management, and chemical waste procedures in laboratories. This study collected data from three academic institutions using a mixed method comprising structured questionnaires and an observation checklist. Quantitative data were analyzed using the Statistical Package for Social Sciences (SPSS), and descriptive analyses were performed. It also codes qualitative data and categorizes the observational data into themes. This study found that most academic laboratories in Hargeisa, Somaliland, have poor chemical safety practices. The academic laboratories had inadequate knowledge and awareness of chemical laboratory safety, lacked proper record-keeping and inventory management of chemicals, and did not follow appropriate chemical waste management procedures. The observation findings confirmed that the laboratories had inadequate facilities, equipment, and personal protective equipment to ensure chemical safety. In conclusion, these results indicate that academic laboratories have poor safety practices that could endanger the chemical management safety of staff and students, and harm the environment. This study recommends enhancing chemical management safety practices in laboratories by developing a continuing education curriculum, providing adequate training and supervision to staff and students, and establishing clear chemical safety policies and guidelines.

Published

2024

20. Chemical Safety of Microwaves-Challenges

Author

Wang, Chong, Luan, Donglei, Barbosa-Cánovas, Gustavo V., Series Editor, Aguilera, José Miguel, Advisory Editor, Candoğan, Kezban, Advisory Editor, Hartel, Richard W., Advisory Editor, Peleg, Micha, Advisory Editor, Rahman, Shafiur, Advisory Editor, Rao, M. Anandha, Advisory Editor, Roos, Yrjö, Advisory Editor, Welti-Chanes, Jorge, Advisory Editor, Pratap Singh, Anubhav, editor, Erdogdu, Ferruh, editor, Wang, Shaojin, editor, and Ramaswamy, Hosahalli S., editor

Published

2024

21. HARNESSING DIGITAL TOOLS TO MITIGATE AND CULTIVATE SAFETY AND COMPLIANCE IN CHEMICAL MANAGEMENT: Setting up a comprehensive safety software system establishes the precedent for lower risk, fewer incidents, and a streamline laboratory environment.

Subjects

INVENTORY control, CHEMICAL safety, DEFENSIVE backs (Football), ENVIRONMENTAL health, CAMPUS safety

Published

2024

22. SEC Submits Response Brief to Defend Climate Disclosure Rules.

Author

Liu, Karen

Subjects

CHEMICAL safety, LEGAL judgments, ADMINISTRATIVE procedure, INVESTMENT information, CIRCUIT courts, AMICI curiae

Abstract

The U.S. Securities and Exchange Commission (SEC) has submitted a response brief to the Eighth Circuit Court of Appeals defending the climate disclosure rules it adopted in March 2024. The rules require standardized climate disclosures by SEC registrants and aim to provide more detailed and comparable information for informed investment and voting decisions. The SEC argues that it has the statutory authority to adopt these rules, and it has considered the cost, impact, and alternatives of the rules. The SEC also asserts that the rules are consistent with the First Amendment and that the relief requested by the petitioners is overbroad. The petitioners are due to submit their reply briefs by September 3, 2024. The SEC voluntarily stayed the rules on April 4, 2024, but it intends to vigorously defend their validity in court. It is possible that the SEC will appeal to the U.S. Supreme Court if the rules are vacated by the Eighth Circuit. Despite the legal challenges, many U.S. businesses have already taken proactive steps to prepare for sustainable developments. [Extracted from the article]

Published

2024

23. Development of a human liver microphysiological coculture system for higher throughput chemical safety assessment.

Author

Ip, Blanche C, Madnick, Samantha J, Zheng, Sophia, Tongeren, Tessa C A van, Hall, Susan J, Li, Hui, Martin, Suzanne, Spriggs, Sandrine, Carmichael, Paul, Chen, Wei, Ames, David, Breitweiser, Lori A, Pence, Heather E, Bowling, Andrew J, Johnson, Kamin J, Cubberley, Richard, Morgan, Jeffrey R, and Boekelheide, Kim

Subjects

*MICROPHYSIOLOGICAL systems, *CHEMICAL safety, *MULTIDRUG resistance-associated proteins, *ATP-binding cassette transporters, *LIVER cells, *LIVER, *ANDROGEN receptors, *CELL culture

Abstract

Chemicals in the systemic circulation can undergo hepatic xenobiotic metabolism, generate metabolites, and exhibit altered toxicity compared with their parent compounds. This article describes a 2-chamber liver-organ coculture model in a higher-throughput 96-well format for the determination of toxicity on target tissues in the presence of physiologically relevant human liver metabolism. This 2-chamber system is a hydrogel formed within each well consisting of a central well (target tissue) and an outer ring-shaped trough (human liver tissue). The target tissue chamber can be configured to accommodate a three-dimensional (3D) spheroid-shaped microtissue, or a 2-dimensional (2D) cell monolayer. Culture medium and compounds freely diffuse between the 2 chambers. Human-differentiated HepaRG liver cells are used to form the 3D human liver microtissues, which displayed robust protein expression of liver biomarkers (albumin, asialoglycoprotein receptor, Phase I cytochrome P450 [CYP3A4] enzyme, multidrug resistance-associated protein 2 transporter, and glycogen), and exhibited Phase I/II enzyme activities over the course of 17 days. Histological and ultrastructural analyses confirmed that the HepaRG microtissues presented a differentiated hepatocyte phenotype, including abundant mitochondria, endoplasmic reticulum, and bile canaliculi. Liver microtissue zonation characteristics could be easily modulated by maturation in different media supplements. Furthermore, our proof-of-concept study demonstrated the efficacy of this coculture model in evaluating testosterone-mediated androgen receptor responses in the presence of human liver metabolism. This liver-organ coculture system provides a practical, higher-throughput testing platform for metabolism-dependent bioactivity assessment of drugs/chemicals to better recapitulate the biological effects and potential toxicity of human exposures. [ABSTRACT FROM AUTHOR]

Published

2024

24. Nutritional Composition and Chemical Safety of Wagashi Gassirè Cheese Sold in the Southern Benin Markets.

Author

Dossou, Alphonse Wanignon, Seko Orou, Baké Marie Thérèse, Komagbe, Gwladys, Sessou, Philippe, Youssao, Abdou Karim Issaka, Farougou, Souaïbou, Hounhouigan, Joseph Djidjoho, Mahillon, Jacques, Mongbo, Roch, Poncelet, Marc, Boutaleb, Samiha, Gobert, Sylvie, Madode, Yann Eméric, Azokpota, Paulin, Clinquart, Antoine, Scippo, Marie-Louise, and Douny, Caroline

Subjects

*BIOGENIC amines, *CHEMICAL safety, *PUBLIC health, *POLLUTANTS, *PESTICIDE residues in food, *LEAD, *CHEESE, *ANTIBIOTIC residues

Abstract

In this study, the nutritional composition and the chemical safety of Wagashi Gassirè (WG) cheese sold in southern Benin markets were assessed. For this purpose, 15 WG were analysed for fatty acids, essential minerals, and chemical hazards (dioxins, aflatoxin M1 (AFM1), biogenic amines, metals, antibiotic and pesticide residues). The risks related to arsenic, lead, aluminium, AFM1, histamine, and tyramine were calculated using the methods recommended by the European Food Safety Authority. Oleic, palmitic and stearic acids, calcium, and phosphorus were the main fatty acids and minerals detected. Lead (0.08 ± 0.06 mg/kg) and AFM1 (0.3 ± 0.0 µg/kg) were detected in all samples and exceeded the maximum level set by the international standard. Cadaverine and tyramine were the main biogenic amines found. No pesticide residues were detected using a multi-residue method targeting compounds. Residues of quinolones, tetracyclines, and colistin antibiotics were also detected. The calculated chronic exposure indicated no public health concern for the chemical contaminants targeted. Moreover, the average cancer risk related to AFM1 intake was 3 × 10−4 cases/105 persons/year for the Benin population through WG consumption. This study contributes to the nutritional characterization of WG and identifies lead and AFM1 as the most relevant chemical hazards of this product. [ABSTRACT FROM AUTHOR]

Published

2024

25. The Product Restricted Substances List of ANFAO: an Example of Innovative Document for the Risk Governance and Safety Management of Eyewear.

Author

Calvi, Marco and Da Cortà, Giuseppe

Subjects

LIFE cycles (Biology), SAFETY goggles, CHEMICAL safety, BURDEN of proof, PLACE marketing

Abstract

On 30 December 2006, the REACH regulation was published in the Official Journal and it came immediately into force in the EU member states plus Norway, Iceland and Liechtenstein, which adopt it. Compared to the past legislation on the subject, the novelty introduced is the reversal of the burden of proof, i.e. the industry will guarantee that its goods that produces and merchandises are not harmful for the environment and human health Manufacturers, importers and users are obliged to manufacture, use or place on the market substances that do not cause harm to health or environment, regulating the substance throughout its life cycle, and even in products in which they are present. The regulation also establishes the European Chemistry Agency, whose mission is to secure the use and circulation of chemicals in Europe. This change in scenario has created serious troubles in the conformity assigning to products. In order to deal with this situation and to support members in the chemical safety assessment process, the Associazione Nazionale Fabbricanti Articoli Ottici (Italian National Association of Optical Goods Manufacturers), through its Technical Committee, in 2010 prepared a list of materials used by glasses, lenses and cases manufacturers matching substances and their risk level. Therefore an ad hoc Product Restricted Substance List has been developed to define specific Market Limits with their related test methods, that take into account the main international regulations. The document has been divided into two documents, one for spectacles and lenses, and one for cases. [ABSTRACT FROM AUTHOR]

Published

2024

26. Regulatory and practical considerations on the implementation of a mixture allocation factor in REACH.

Author

Treu, Gabriele, Schulze, Jona, Galert, Wiebke, and Hassold, Enken

Subjects

CHEMICAL safety, MIXTURES, HAZARD mitigation, ENVIRONMENTAL exposure, DATA transmission systems, TOXIC substance exposure, SUPPLY chains, ECOLOGY

Abstract

There is indisputable evidence that the environment, humans and wildlife are continuously exposed not to single but to multiple chemicals from different sources. Exposure to these mixtures can lead to combined risks not yet sufficiently addressed in any of the European chemical legislations. Under the REACH regulation for industrial chemicals, specific environmental mixture assessments are challenged by a lack of data on toxicity, use and exposures and the communication of data along the supply chain. Within the Chemicals Strategy for Sustainability the European Commission proposed to introduce (a) mixture allocation factor(s) (MAF) as regulatory management tool to reduce exposures, effects and potential risks of unintentional mixtures. The MAF is proposed to be applied as default value within the chemical safety assessments undertaken by companies under REACH. Here, we critically review the relevant literature discussing the conceptual background of the MAF and approaches to derive its magnitude. The analysis focuses on the environment and key issues for an implementation in regulatory practise together with remaining uncertainties and needs for possible ways forward. At this stage introducing a MAF in REACH Annex I appears the most pragmatic and immediately implementable measure to address risks from unintentional mixtures in the environment. A so-called MAFceiling appears as the preferred option of policy makers, since it would only affect relevant substances close to their respective risk threshold. While the magnitude of a MAF will be decided politically, the choice of methods and assumptions to derive its size should be clear and transparent, build on the available scientific evidence and take account for uncertainties. A MAF will be most effective reducing environmental releases and exposure levels if risk mitigation measures are implemented in practise. Its socioeconomic impacts and costs need to be assessed in a balanced way together with the benefits for the environment, society, and for companies—also in comparison to the efforts needed for specific mixture risk assessments. In the future and with the experiences gathered in practise, a discussion is needed on how to assess and regulate unintentional mixtures across different pieces of chemicals legislation to consider the true exposure situation and ensure harmonisation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Physiologically based kinetic (PBK) modeling as a new approach methodology (NAM) for predicting systemic levels of gut microbial metabolites.

Author

Stevanoska, Maja, Folz, Jacob, Beekmann, Karsten, and Aichinger, Georg

Subjects

*MICROBIAL metabolites, *MICROBIAL metabolism, *CHEMICAL amplification, *GUT microbiome, *CHEMICAL safety, *AREA measurement

Abstract

There is a clear need to develop new approach methodologies (NAMs) that combine in vitro and in silico testing to reduce and replace animal use in chemical risk assessment. Physiologically based kinetic (PBK) models are gaining popularity as NAMs in toxico/pharmacokinetics, but their coverage of complex metabolic pathways occurring in the gut are incomplete. Chemical modification of xenobiotics by the gut microbiome plays a critical role in the host response, for example, by prolonging exposure to harmful metabolites, but there is not a comprehensive approach to quantify this impact on human health. There are examples of PBK models that have implemented gut microbial biotransformation of xenobiotics with the gut as a dedicated metabolic compartment. However, the integration of microbial metabolism and parameterization of PBK models is not standardized and has only been applied to a few chemical transformations. A challenge in this area is the measurement of microbial metabolic kinetics, for which different fermentation approaches are used. Without a standardized method to measure gut microbial metabolism ex vivo/in vitro , the kinetic constants obtained will lead to conflicting conclusions drawn from model predictions. Nevertheless, there are specific cases where PBK models accurately predict systemic concentrations of gut microbial metabolites, offering potential solutions to the challenges outlined above. This review focuses on models that integrate gut microbial bioconversions and use ex vivo/in vitro methods to quantify metabolic constants that accurately represent in vivo conditions. [Display omitted] • Gut microbial metabolism becomes increasingly important for chemical safety assessment. • PBK models predict systemic levels of microbial metabolites. • Different ex vivo/in vitro methods influence the measurement of microbial metabolism rates. • Standardizing microbial metabolism measurements is vital to assess the impact on the host. [ABSTRACT FROM AUTHOR]

Published

2024

28. New approach methods to assess developmental and adult neurotoxicity for regulatory use: a PARC work package 5 project.

Author

Tal, Tamara, Myhre, Oddvar, Fritsche, Ellen, Rüegg, Joëlle, Craenen, Kai, Aiello-Holden, Kiara, Agrillo, Caroline, Babin, Patrick J., Escher, Beate I., Dirven, Hubert, Hellsten, Kati, Dolva, Kristine, Hessel, Ellen, Heusinkveld, Harm J., Hadzhiev, Yavor, Hurem, Selma, Jagiello, Karolina, Judzinska, Beata, Klüver, Nils, and Knoll-Gellida, Anja

Subjects

NEUROTOXICOLOGY, NEURAL development, ADULTS, CHEMICAL safety

Abstract

In the European regulatory context, rodent in vivo studies are the predominant source of neurotoxicity information. Although they form a cornerstone of neurotoxicological assessments, they are costly and the topic of ethical debate. While the public expects chemicals and products to be safe for the developing and mature nervous systems, considerable numbers of chemicals in commerce have not, or only to a limited extent, been assessed for their potential to cause neurotoxicity. As such, there is a societal push toward the replacement of animal models with in vitro or alternative methods. New approach methods (NAMs) can contribute to the regulatory knowledge base, increase chemical safety, and modernize chemical hazard and risk assessment. Provided they reach an acceptable level of regulatory relevance and reliability, NAMs may be considered as replacements for specific in vivo studies. The European Partnership for the Assessment of Risks from Chemicals (PARC) addresses challenges to the development and implementation of NAMs in chemical risk assessment. In collaboration with regulatory agencies, Project 5.2.1e (Neurotoxicity) aims to develop and evaluate NAMs for developmental neurotoxicity (DNT) and adult neurotoxicity (ANT) and to understand the applicability domain of specific NAMs for the detection of endocrine disruption and epigenetic perturbation. To speed up assay time and reduce costs, we identify early indicators of later-onset effects. Ultimately, we will assemble second-generation developmental neurotoxicity and first-generation adult neurotoxicity test batteries, both of which aim to provide regulatory hazard and risk assessors and industry stakeholders with robust, speedy, lower-cost, and informative next-generation hazard and risk assessment tools. [ABSTRACT FROM AUTHOR]

Published

2024

29. Inclusion of microbiological food safety as a novel aspect in life cycle assessments of food production.

Author

Nikkhah, Amin, Ghnimi, Sami, Tichenor Blackstone, Nicole, Nikkhah, Farima, Jacxsens, Liesbeth, Devlieghere, Frank, and Van Haute, Sam

Subjects

*FOOD poisoning, *RISK assessment, *BACILLUS (Bacteria), *CHEMICAL safety, *RESEARCH funding, *FOOD safety, *LIFE expectancy, *FOOD chemistry, *CONVENIENCE foods, *FOOD handling, *DESCRIPTIVE statistics, *FOOD microbiology, *FOOD contamination, *PEOPLE with disabilities, RISK factors

Abstract

The life cycle assessment (LCA) methodology currently covers a limited number of human health-related impact categories. Microbiological food safety is an essential aspect for the selection of an appropriate food production system and has been neglected in the LCA so far. A framework for the inclusion of a microbiological food safety indicator, expressed as disability-adjusted life year (DALY) value of the consumed food product to the human health damage category (end-point) was created, and applied in a case study model on the cooked-chilled meals as the ready-to-eat meals can be associated with the occurrence of foodborne illness cases and outbreaks. This study suggests a framework for the inclusion of microbiological risk caused by Bacillus cereus associated with the consumption of ready-to-eat meals (in Belgium) in the LCA. The results indicated that the microbiological risk of one package of the investigated ready-to-eat meal was 1.95 × 10−6 DALY, and the obtained DALY value was included as an impact category in the LCA methodology. Inclusion of other categories of food safety (including chemical safety hazards, pesticide residues, heavy metals, and mycotoxins) in LCA could be done in the same fashion. [ABSTRACT FROM AUTHOR]

Published

2024

30. Comparing Antoine parameter sources for accurate vapor pressure prediction across a range of temperatures.

Author

Moshele, Puleng, Stenzel, Mark R, Drolet, Daniel, and Arnold, Susan F

Subjects

*STATISTICAL models, *HAZARDOUS substance release, *RESEARCH funding, *CHEMICAL safety, *WORK environment, *OCCUPATIONAL exposure, *TEMPERATURE, *VOLATIZATION, *INDUSTRIAL safety

Abstract

Determining the vapor pressure of a substance at the relevant process temperature is a key component in conducting an exposure assessment to ascertain worker exposure. However, vapor pressure data at various temperatures relevant to the work environment is not readily available for many chemicals. The Antoine equation is a mathematical expression that relates temperature and vapor pressure. The objective of this analysis was to compare Antoine parameter data from 3 independent data sources; Hansen, Yaws, and Custom data and identify the source that generates the most accurate vapor pressure values with the least bias, relative to the referent data set from the CRC Handbook of Chemistry and Physics. Temperatures predicted from 3 different Antoine sources across a range of vapor pressures for 59 chemicals are compared to the reference source. The results show that temperatures predicted using Antoine parameters from the 3 sources are not statistically significantly different, indicating that all 3 sources could be useful. However, the Yaws dataset will be used in the SDM 2.0 because the data is readily available and robust. [ABSTRACT FROM AUTHOR]

Published

2024

31. Coal-Derived Humic Substances: Insight into Chemical Structure Parameters and Biomedical Properties.

Author

Zykova, Maria V., Bratishko, Kristina A., Buyko, Evgeny E., Azarkina, Lyudmila A., Ivanov, Vladimir V., Mihalyov, Dmitrii A., Trofimova, Evgeniya S., Danilets, Marina G., Ligacheva, Anastasia A., Konstantinov, Andrey I., Ufandeev, Alexander A., Rabtsevich, Evgenia S., Drygunova, Larisa A., Zima, Anastasia P., Bashirov, Sergey R., Udut, Elena V., and Belousov, Mikhail V.

Subjects

*HUMUS, *CHEMICAL structure, *CONDITIONED response, *MOLECULAR structure, *LEAD, *CADMIUM, *ARSENIC, *SUPEROXIDES

Abstract

An investigation was carried out on humic substances (HSs) isolated from the coal of the Kansk-Achinsk basin (Krasnoyarsk Territory, Russia). The coal HSs demonstrate the main parameters of molecular structure inherent to this class of natural compounds. An assessment was performed for the chemical, microbiological, and pharmacological safety parameters, as well as the biological efficacy. The HS sample meets the safety requirements in microbiological purity, toxic metals content (lead, cadmium, mercury, arsenic), and radionuclides. The presence of 11 essential elements was determined. The absence of general, systemic toxicity, cytotoxicity, and allergenic properties was demonstrated. The coal HS sample was classified as a Class V hazard (low danger substances). High antioxidant and antiradical activities and immunotropic and cytoprotective properties were identified. The ability of the HS to inhibit hydroxyl radicals and superoxide anion radicals was revealed. Pronounced actoprotective and nootropic activities were also demonstrated in vivo. Intragastric administration of the HS sample resulted in the improvement of physical parameters in mice as assessed by the "swim exhaustion" test. Furthermore, intragastric administration in mice with cholinergic dysfunction led to a higher ability of animals with scopolamine-induced amnesia to form conditioned reflexes. These findings suggest that the studied HS sample is a safe and effective natural substance, making it suitable for use as a dietary bioactive supplement. [ABSTRACT FROM AUTHOR]

Published

2024

32. An integrated in vitro carcinogenicity test that distinguishes between genotoxic carcinogens, non-genotoxic carcinogens, and non-carcinogens.

Author

Chapman, Katherine E, Shah, Ume-Kulsoom, Fletcher, Jessica F, Johnson, George E, Doak, Shareen H, and Jenkins, Gareth J S

Subjects

*CARCINOGENICITY testing, *GENETIC toxicology, *CARCINOGENS, *LYMPHOBLASTOID cell lines, *CHEMICAL safety, *CHEMICAL testing

Abstract

Chemical safety testing plays a crucial role in product and pharmacological development, as well as chemoprevention; however, in vitro genotoxicity safety tests do not always accurately predict the chemicals that will be in vivo carcinogens. If chemicals test positive in vitro for genotoxicity but negative in vivo , this can contribute to unnecessary testing in animals used to confirm erroneous in vitro positive results. Current in vitro tests typically evaluate only genotoxicity endpoints, which limits their potential to detect non-genotoxic carcinogens. The frequency of misleading in vitro positive results can be high, leading to a requirement for more informative in vitro tests. It is now recognized that multiple-endpoint genotoxicity testing may aid more accurate detection of carcinogens and non-carcinogens. The objective of this review was to evaluate the utility of our novel, multiple-endpoint in vitro test, which uses multiple cancer-relevant endpoints to predict carcinogenic potential. The tool assessed micronucleus frequency, p53 expression, p21 expression, mitochondrial respiration, cell cycle abnormalities and, uniquely, cell morphology changes in human lymphoblastoid cell lines, TK6 and MCL-5. The endpoints were used to observe cellular responses to 18 chemicals within the following categories: genotoxic carcinogens, non-genotoxic carcinogens, toxic non-carcinogens, and misleading in vitro positive and negative agents. The number of endpoints significantly altered for each chemical was considered, alongside the holistic Integrated Signature of Carcinogenicity score, derived from the sum of fold changes for all endpoints. Following the calculation of an overall score from these measures, carcinogens exhibited greater potency than non-carcinogens. Genotoxic carcinogens were generally more potent than non-genotoxic carcinogens. This novel approach therefore demonstrated potential for correctly predicting whether chemicals with unknown mechanism may be considered carcinogens. Overall, while further validation is recommended, the test demonstrates potential for the identification of carcinogenic compounds. Adoption of the approach could enable reduced animal use in carcinogenicity testing. [ABSTRACT FROM AUTHOR]

Published

2024

33. New approach methodologies (NAMs): identifying and overcoming hurdles to accelerated adoption.

Author

Sewell, Fiona, Alexander-White, Camilla, Brescia, Susy, Currie, Richard A, Roberts, Ruth, Roper, Clive, Vickers, Catherine, Westmoreland, Carl, and Kimber, Ian

Subjects

CHEMICAL safety, HEALTH risk assessment, ENVIRONMENTAL security, RISK assessment

Abstract

New approach methodologies (NAMs) can deliver improved chemical safety assessment through the provision of more protective and/or relevant models that have a reduced reliance on animals. Despite the widely acknowledged benefits offered by NAMs, there continue to be barriers that prevent or limit their application for decision-making in chemical safety assessment. These include barriers related to real and perceived scientific, technical, legislative and economic issues, as well as cultural and societal obstacles that may relate to inertia, familiarity, and comfort with established methods, and perceptions around regulatory expectations and acceptance. This article focuses on chemical safety science, exposure, hazard, and risk assessment, and explores the nature of these barriers and how they can be overcome to drive the wider exploitation and acceptance of NAMs. Short-, mid- and longer-term goals are outlined that embrace the opportunities provided by NAMs to deliver improved protection of human health and environmental security as part of a new paradigm that incorporates exposure science and a culture that promotes the use of protective toxicological risk assessments. [ABSTRACT FROM AUTHOR]

Published

2024

34. The Development of Electronic Modules (E-Module) For Learning Chemical Safety and Security in High School Laboratories.

Author

Hairishah, Nazrisya, Nurjayadi, Muktiningsih, and Afrizal

Subjects

CHEMICAL safety, SCHOOL security, COVID-19 pandemic, LEARNING, HIGHER education

Abstract

The use of e-learning was very helpful in the distance learning process that was implemented during the COVID-19 pandemic. One of the applications of e-Learning media that can be used is the electronic module (e-Module). The purpose of this study is to develop electronic modules (e-Module) on chemical safety and security in high school laboratories. This study uses a descriptive quantitative method with research and development outlined by Borg and Gall. The instrument used in this study was a questionnaire. The e-Module was validated by experts in media and graphics, and experts in content and language. The e-Module was also tested by chemistry teachers, students in 10th grade, and college students in the chemistry education program. The result from the assessment given by experts, teachers, and students from the validation and trial stage can be interpreted as well up to very good. It can be concluded that the e-Module is feasible to be used as a learning media of Chemistry on Chemical Safety and Security in High-School Laboratories for high-school students. [ABSTRACT FROM AUTHOR]

Published

2024

35. Potential mammary carcinogens used in food contact articles: implications for policy, enforcement, and prevention

Author

Lindsey V. Parkinson, Birgit Geueke, and Jane Muncke

Subjects

food packaging, food contact chemicals, breast cancer, hazard assessment, chemical safety, regulation, Toxicology. Poisons, RA1190-1270

Abstract

Many nations have food contact material (FCM) legislation purporting to protect citizens from hazardous chemicals, often specifically by regulating genotoxic carcinogens. Despite such regulations, cancers that are associated with harmful chemical exposures are highly prevalent, especially breast cancer. Using the novel Key Characteristics of Toxicants framework, Kay et al. found 921 substances that are potential mammary carcinogens. By comparing Kay et al.‘s chemicals list with our own Database on migrating and extractable food contact chemicals (FCCmigex), we found that 189 (21%) of the potential mammary carcinogens have been measured in FCMs. When limiting these results to migration studies published in 2020–2022, 76 potential mammary carcinogens have been detected to migrate from FCMs sold in markets across the globe, under realistic conditions of use. This implies that chronic exposure of the entire population to potential mammary carcinogens from FCMs is the norm and highlights an important, but currently underappreciated opportunity for prevention. Reducing population-wide exposure to potential mammary carcinogens can be achieved by science-based policy amendments addressing the assessment and management of food contact chemicals.

Published

2024

36. Editorial: European partnership on the assessment of risks from chemicals (PARC): focus on new approach methodologies (NAMs) in risk assessment

Author

Louise Ramhøj, Terje Svingen, and Tamara Vanhaecke

Subjects

PARC, risk assessment, NGRA, chemical safety, new approach methodologies (NAMs), alternative methods, Toxicology. Poisons, RA1190-1270

Published

2024

37. What You Don't Know Can Hurt You: Employees must be trained on the hazardous chemicals in their work area. What do employers need to know to comply with standards and protect their employees?

Author

KRUBSACK, RACHEL

Subjects

*HAZARDOUS substances, *CHEMICAL plants, *CHEMICAL safety, *EMPLOYERS, *INDUSTRIAL safety, *INDEPENDENT contractors

Abstract

The article discusses the importance of training employees on the hazardous chemicals in their work area to comply with standards and protect their safety. It highlights that millions of workplaces across the country produce or handle hazardous chemicals, making it crucial for employees to understand the hazards and how to safely use them. The article explains the definition of hazardous chemicals and the required information that should be communicated to employees, such as labels, safety data sheets, and training on specific procedures and protective equipment. It also emphasizes the need for site-specific training and the importance of considering employees' education and language proficiency. The article concludes by mentioning that computer-based or video-based training can provide an overview of the Hazard Communication (HazCom) Standard, but it should be supplemented with site-specific information and the opportunity for employees to ask questions. [Extracted from the article]

Published

2024

38. Effect-based monitoring of chemical hazards in drinking water from source to tap: seasonal trends over 2 years of sampling.

Author

Lundqvist, Johan, Lavonen, Elin, Mandava, Geeta, Selin, Erica, Ejhed, Helene, and Oskarsson, Agneta

Subjects

DRINKING water, WATER treatment plants, AUTUMN, ARYL hydrocarbon receptors, WATER supply, CHEMICAL safety

Abstract

Drinking water producers have a far-reaching responsibility to provide safe, clean and wholesome drinking water, using water resources possibly effected by the thousands of chemicals used in societies' daily life. This study has monitored chemical hazards in drinking water from source to tap, using effect-based methods. The study was conducted at a Swedish drinking water treatment plant sourcing lake water and aimed to investigate potential seasonal variations in both the raw water and water after different treatment steps. Furthermore, a granular activated carbon (GAC) pilot facility was evaluated. Samples were analyzed for estrogenicity, androgenicity, aryl hydrocarbon receptor (AhR) activity, oxidative stress (Nrf2) response and genotoxicity (micronucleus formation). We observed seasonal differences in oxidative stress and genotoxic effects in both raw and drinking water with higher activities during the late fall of each year. The removal efficiency for both oxidative stress and genotoxicity was limited in the full-scale treatment process and occasionally the genotoxicity was also detected in outgoing drinking water from the treatment plant and in samples collected at consumers tap on the distribution network. AhR activity was present in all raw water samples and the removal was limited. Estrogenic activities were observed in most of the raw water samples but in contrast to the other parameters estrogenicity was effectively reduced by the full-scale conventional treatment. The GAC pilot treatment was generally more efficient than the full-scale conventional treatment in removing all observed bioactivities and could be a viable complement to the current treatment to assure drinking water free from genotoxic compounds. Genotoxic activities in drinking water was observed while all currently regulated chemical parameters were fulfilled. This highlights the need for effect-based monitoring in efforts to ensure the chemical safety of drinking water, as target chemical analysis of single compounds will overlook both unknown hazardous compounds as well as potential mixture effects. [ABSTRACT FROM AUTHOR]

Published

2024

39. Evaluation of neural reflex activation as a potential mode of action for respiratory and cardiovascular effects of fine particulate matter.

Author

Prueitt, Robyn L., Meakin, Cassandra J., Drury, Nicholas L., and Goodman, Julie E.

Subjects

*PARTICULATE matter, *REFLEXES, *CIGARETTE smoke, *CHEMICAL safety, *TUNNEL ventilation, *SMOKING

Abstract

Mortality from respiratory and cardiovascular health conditions contributes largely to the total mortality that has been associated with exposure to PM2.5 in epidemiology studies. A mode of action (MoA) for these underlying morbidities has not been established, but it has been proposed that some effects of PM2.5 occur through activation of neural reflexes. We critically reviewed the experimental studies of PM2.5 (including ambient PM2.5, diesel exhaust particles, concentrated ambient particles, diesel exhaust, and cigarette smoke) and neural reflex activation, and applied the principles of the International Programme on Chemical Safety (IPCS) MoA/human relevance framework to assess whether they support a biologically plausible and human-relevant MoA by which PM2.5 could contribute to cardiovascular and respiratory causes of death. We also considered whether the evidence from these studies supports a non-threshold MoA that operates at low, human-relevant PM2.5 exposure concentrations. We found that the proposed MoA of neural reflex activation is biologically plausible for PM2.5-induced respiratory effects at high exposure levels used in experimental studies, but further studies are needed to fill important data gaps regarding the relevance of this MoA to humans at lower PM2.5 exposure levels. A role for the proposed MoA in PM2.5-induced cardiovascular effects is plausible for some effects but not others. Further studies are needed to determine whether neural reflex activation is the MoA by which PM2.5 could cause either respiratory or cardiovascular morbidities in humans, particularly at the ambient concentrations associated with total mortality in epidemiology studies. [ABSTRACT FROM AUTHOR]

Published

2024

40. A Chemical Safety Assessment of Lyocell-Based Activated Carbon Fiber with a High Surface Area through the Evaluation of HCl Gas Adsorption and Electrochemical Properties.

Author

Kim, Jong Gu and Bai, Byong Chol

Subjects

*GAS absorption & adsorption, *CHEMICAL safety, *ACTIVATED carbon, *SURFACE area, *POROSITY

Abstract

This study investigates lyocell-based activated carbon fibers (ACFs) for their suitability in adsorbing and electrochemically detecting toxic HCl gas. ACFs were prepared via steam activation, varying temperature (800–900 °C) and time (40–240 min) to assess their adsorption and sensing capabilities. The adjustment of activation temperature and reaction time aimed to regulate the uniformity of the pore structure and pore size of the active reaction area, as well as the number of reaction sites in the ACFs. Optimal ACFs were achieved at 900 °C for 50 min, exhibiting the highest specific surface area (1403 m2/g) and total pore volume (0.66 cm3/g). Longer reaction times resulted in pore formation and disorder, reducing mechanical strength. The ACFs prepared under optimal conditions demonstrated a rapid increase in resistance during sensor measurement, indicating a significant sensitivity to HCl gas. These findings suggest the potential of ACFs for efficient HCl gas adsorption (1626.20 mg/g) and highlight the importance of activation parameters in tailoring their properties for practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

41. Systematic review of chemical safety and chemical security risk management approach.

Author

Fouzi, Nur Fauzana Raihani, Aziz, Hanida Abdul, and Yaakub, Norwahida

Subjects

*CHEMICAL safety, *SECURITY management, *HAZARDOUS substances, *CHEMICAL process industries, *WEB databases

Abstract

The best practice of chemical management is crucial to prevent or minimize the risk of chemical exposure to people and the environment either caused by safety or security issues. Good chemical management must be implemented by all sectors, especially in chemical process industries and chemical laboratories since they deal with various types of hazardous chemicals. The systematic literature review focuses on initiatives to manage chemicals safely and securely. Hence, this systematic review aims to analyse the appropriate chemical safety and security risk management approaches. The Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) method was adopted in this study, utilizing three databases: Web of Science (WOS), Scopus, and ScienceDirect. Four main themes and 19 sub-themes have been developed from the review of 26 full-text articles, of which the main themes are the authority approach (16%), Organizational approach (63%), Individual approach (5%), and Technology-based approach (16%). From the findings, the organizational approach contributes the most to ensuring sound and peaceful chemical risk management. At the end of this study, a few limitations and recommendations have been remarked for future research. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

42. Artificial intelligence (AI)—it's the end of the tox as we know it (and I feel fine).

Author

Kleinstreuer, Nicole and Hartung, Thomas

Subjects

*ARTIFICIAL neural networks, *LANGUAGE models, *ARTIFICIAL intelligence, *NATURAL language processing, *DEEP learning, *CHEMICAL safety

Abstract

The rapid progress of AI impacts diverse scientific disciplines, including toxicology, and has the potential to transform chemical safety evaluation. Toxicology has evolved from an empirical science focused on observing apical outcomes of chemical exposure, to a data-rich field ripe for AI integration. The volume, variety and velocity of toxicological data from legacy studies, literature, high-throughput assays, sensor technologies and omics approaches create opportunities but also complexities that AI can help address. In particular, machine learning is well suited to handle and integrate large, heterogeneous datasets that are both structured and unstructured—a key challenge in modern toxicology. AI methods like deep neural networks, large language models, and natural language processing have successfully predicted toxicity endpoints, analyzed high-throughput data, extracted facts from literature, and generated synthetic data. Beyond automating data capture, analysis, and prediction, AI techniques show promise for accelerating quantitative risk assessment by providing probabilistic outputs to capture uncertainties. AI also enables explanation methods to unravel mechanisms and increase trust in modeled predictions. However, issues like model interpretability, data biases, and transparency currently limit regulatory endorsement of AI. Multidisciplinary collaboration is needed to ensure development of interpretable, robust, and human-centered AI systems. Rather than just automating human tasks at scale, transformative AI can catalyze innovation in how evidence is gathered, data are generated, hypotheses are formed and tested, and tasks are performed to usher new paradigms in chemical safety assessment. Used judiciously, AI has immense potential to advance toxicology into a more predictive, mechanism-based, and evidence-integrated scientific discipline to better safeguard human and environmental wellbeing across diverse populations. [ABSTRACT FROM AUTHOR]

Published

2024

43. Safety Evaluation of a Prototypical Diazirine-Based Covalent Crosslinker and Molecular Adhesive.

Author

Baran, Miranda J., Hof, Rebecca, Groot, Angelique, Eurlings, Irene, Gijsbrechts, Jet, de Jong, Britt, and Wulff, Jeremy E.

Subjects

*SCIENTIFIC literature, *SCIENCE in literature, *ADHESIVES, *CHEMICAL safety, *MATERIALS science

Abstract

bis -Diazirine reagents are increasingly being used as polymer crosslinkers, adhesives, and photopatterning agents in the materials sciences literature, but little effort has been made thus far to document their chemical safety profile. Here, we describe the results of a detailed toxicity assessment of a representative bis -diazirine. Safety was evaluated by a series of in vitro assays, which found the product to be non-mutagenic in bacterial tester strains TA98 and TA100, non-corrosive and non-irritating to skin, and requiring no classification for eye irritation or serious damage. While in vitro tests do not capture the integrated whole animal system, and thus cannot completely rule out the possibility of adverse responses, the results of this study suggest a desirable safety profile for bis -diazirine reagents and provide a solid foundation upon which to add in vivo assessment of safety risk and dose-response studies. [ABSTRACT FROM AUTHOR]

Published

2024

44. IUPAC International Chemical Identifier (InChI)-related education and training materials through InChI Open Education Resource (OER).

Author

Cornell, Andrew P., Kim, Sunghwan, Cuadros, Jordi, Bucholtz, Ehren C., Pence, Harry E., Potenzone, Rudy, and Belford, Robert E.

Subjects

ELECTRONIC spreadsheets, SCIENTIFIC community, INFORMATION resources, CHEMICAL structure, CHEMICAL safety, LABORATORY safety

Abstract

The IUPAC International Chemical Identifier (InChI) is a structure-based chemical identifier that encodes various aspects of a chemical structure into a hierarchically layered line notation. Because InChI is non-proprietary, open-source, and freely available to everyone, it is adopted in popular chemical information resources and software programs. This paper describes the InChI Open Education Resource (OER) (https://www.inchi-trust.org/oer/), designed to provide educators and other interested parties with resources, training material, and information related to InChI. Currently, the OER contains over 100 materials collected from various sources and provides users with search, filtering, and sorting functionalities to locate specific records. New relevant materials can be suggested by anyone, allowing the scientific community to share and find InChI-related resources. This paper will show how to use the InChI OER tag taxonomy to filter content and demonstrate two resources within the InChI OER; the ChemNames2LCSS Google Sheet and the InChILayersExplorer, an Excel spreadsheet that breaks an InChI into its layers. While the InChI OER is of value to a broader chemistry community, this paper seeks to reach out to chemical educators and provide them with an understanding of InChI and its role in the practice of science. [ABSTRACT FROM AUTHOR]

Published

2024

45. Chemical Restraints for Obstetric Violence: Anesthesiology Professionals, Moral Courage, and the Prevention of Forced and Coerced Surgeries.

Author

Burgart, Alyssa and Sutton, Caitlin

Subjects

*ANESTHESIOLOGISTS, *ETHICS, *STRATEGIC planning, *HUMAN rights, *VIOLENCE, *ABORTION laws, *OBSTETRICS, *COURAGE, *HARM reduction, *PATIENTS' rights, *RESTRAINT of patients, *CHEMICAL safety, *PATIENT compliance, *CONTROL (Psychology)

Abstract

The article focuses on the ethical implications of using chemical restraints for obstetric surgeries, particularly when patients are coerced or forced into surgical interventions. It addresses the role of anesthesia professionals in upholding patient autonomy and preventing forced surgeries, highlighting the importance of respecting patients' decisions and ensuring informed consent in surgical care.

Published

2024

46. Chemical characterization of virgin and recycled polyethylene terephthalate films used for food contact applications.

Author

Bhattarai, Bina, Kusano, Yukihiro, Cederberg, Tommy Licht, Jensen, Lisbeth Krüger, Granby, Kit, and Pedersen, Gitte Alsing

Subjects

*POLYETHYLENE terephthalate, *POLYETHYLENE films, *WASTE recycling, *CHEMICAL safety, *FOOD packaging, *COCONUT oil

Abstract

Plastic is commonly used for food packaging, of which plastic polymer polyethylene terephthalate (PET) is widely used in the food and beverage industry. Furthermore, PET is the most suitable and recyclable plastic polymer used in food contact applications due to its functional properties: inertness and low diffusion of gases and migrants. However, using recycled PET (rPET) for food contact applications requires that the rPET is chemically safe. In this study, we use mass spectrometry and spectroscopy-based methods to characterize the chemical composition of virgin PET (vPET) and rPET. The mass spectrometric analysis demonstrated more peaks in rPET and the spectroscopic analysis revealed degradation of the rPET after the recycling process. The tentatively identified peaks in both vPET and rPET were mainly PET oligomers. The present work suggests the importance of testing PET obtained from one or more recycling processes to evaluate the effect on the polymer properties, chemical migration, and chemical safety of rPET for food contact. [ABSTRACT FROM AUTHOR]

Published

2024

47. Quality and safety of South African hand sanitisers during the COVID-19 pandemic.

Author

de Bruin, W., van Zijl, M. C., Aneck-Hahn, N. H., and Korsten, L.

Subjects

*SKIN diseases, *PUBLIC health, *ESTROGEN, *ANTI-infective agents, *INFECTION control, *GAS chromatography, *LABELS, *ENVIRONMENTAL health, *QUALITY assurance, *CHEMICAL safety, *RESEARCH funding, *HAND washing, *DISINFECTION & disinfectants, *COVID-19 pandemic

Abstract

Health agencies recommend using hand sanitisers as protection against the coronavirus. Thus far, the emphasis on hand sanitiser studies is limited to an analysis of disinfectant content only. This study aims to provide an extended analysis of 60 off-the-shelf alcohol-based hand sanitisers by using gas chromatography to report on alcohol content and the presence of impurities, a recombinant yeast estrogen screen to assess estrogenic activity, and an investigation into labelling compliance with the South African National Standard. Fifty hand sanitisers had an alcohol content of ≥60% v/v alcohol; however, most contained skin irritants and substances that could harm human and environmental health. Estrogenic activity was detected in 29 hand sanitisers and none of the products complied with all the labelling requirements. Since off-the-shelf hand sanitisers in South Africa are not regulated and monitored, evidence-based public awareness programmes on hand sanitiser quality and safety should become a priority. [ABSTRACT FROM AUTHOR]

Published

2024

48. A chemical accident cause text mining method based on improved accident triangle.

Author

Li, Zheng, Yao, Min, Luo, Zhenmin, Wang, Xinping, Liu, Tongshuang, Huang, Qianrui, and Su, Chang

Subjects

*TEXT mining, *TRIANGLES, *CHEMICAL safety, *K-means clustering, *RANK correlation (Statistics)

Abstract

Background: With the rapid development of China's chemical industry, although researchers have developed many methods in the field of chemical safety, the situation of chemical safety in China is still not optimistic. How to prevent accidents has always been the focus of scholars' attention. Methods: Based on the characteristics of chemical enterprises and the Heinrich accident triangle, this paper developed the organizational-level accident triangle, which divides accidents into group-level, unit-level, and workshop-level accidents. Based on 484 accident records of a large chemical enterprise in China, the Spearman correlation coefficient was used to analyze the rationality of accident classification and the occurrence rules of accidents at different levels. In addition, this paper used TF-IDF and K-means algorithms to extract keywords and perform text clustering analysis for accidents at different levels based on accident classification. The risk factors of each accident cluster were further analyzed, and improvement measures were proposed for the sample enterprises. Results: The results show that reducing unit-level accidents can prevent group-level accidents. The accidents of the sample enterprises are mainly personal injury accidents, production accidents, environmental pollution accidents, and quality accidents. The leading causes of personal injury accidents are employees' unsafe behaviors, such as poor safety awareness, non-standard operation, illegal operation, untimely communication, etc. The leading causes of production accidents, environmental pollution accidents, and quality accidents include the unsafe state of materials, such as equipment damage, pipeline leakage, short-circuiting, excessive fluctuation of process parameters, etc. Conclusion: Compared with the traditional accident classification method, the accident triangle proposed in this paper based on the organizational level dramatically reduces the differences between accidents, helps enterprises quickly identify risk factors, and prevents accidents. This method can effectively prevent accidents and provide helpful guidance for the safety management of chemical enterprises. [ABSTRACT FROM AUTHOR]

Published

2024

49. Kémiai biztonság a robbantástechnikában.

Author

Mária, Hernád

Abstract

Copyright of Engineer Military Bulletin / Muszaki Katonai Közlöny is the property of National University of Public Service and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

50. Estudio de la seguridad química en un depósito de reactivos.

Author

Frometa-Vázquez, Yunaisi and González-Diaz, Yudith

Subjects

*HAZARDOUS substances, *CHEMICAL safety, *SECURITY systems, *CHEMICAL reagents, *POISONS

Abstract

Chemical safety is a fundamental issue in any place where chemicals are handled because assessing occupational exposure to a chemical agent is essential to determine the importance and need to propose measures to eliminate, reduce and control the risk and protect the worker. The aim of this work was to assess chemical safety in a reagent depot by applying the COSHH Essentials method. Three variables were considered to categorise the risk: intrinsic hazard of the reagent, tendency to pass into the environment (volatility or pulverulence) and quantity of reagent stored. Information on the chemicals was collected from their safety data sheets. The COSHH Essentials analysis identified that 32 % of the reagents worked with fall into hazard category C (toxic reagents), 21 % into category B (harmful), 18 % into category D (very toxic and/or carcinogenic category 2), 16 % into category A (irritating to eyes and/or skin) and 13 % into category E (carcinogenic category 1A and 1B). Seventeen percent of the stored reagents are in risk level 4, which represents the highest risk level, as this is where the most hazardous chemical reagents are located. The results obtained show that there is a high risk of toxic chemicals in the warehouse. It is necessary to be aware of these factors and to control them and apply all relevant security measures. [ABSTRACT FROM AUTHOR]

Published

2024