Formaldehyde as a mass-produced chemical is used in many contexts. The genotoxicity and mutagenicity of formaldehyde are observed in different human body organs, such as buccal and white blood cells. The purpose of this study is to evaluate the lower confidence interval of benchmark dose (BMDL) for genotoxic damage of formaldehyde in the workplace, according to published studies. Studies from occupational genotoxic damage of formaldehyde were retrieved using search in databases such as Google Scholar, Web of Science, and PubMed until April 2020. The search strategy was established based on the words “formaldehyde”, “genotoxicity”, “carcinogenicity”, “DNA damage,” and “occupational exposure”. Based on dose-response data from three studies, benchmark dose (BMD) analysis was performed using EPA-BMD Software. Finally, five studies were included in the final BMDL conclusion. Polynomial and Hill models were used for BMDL evaluation in three studies, and BMD of formaldehyde was estimated between 0.062 to 0.26 ppm. The lowest level of BMDL (0.028 ppm) in five studies was considered the basic value for genotoxicity risk assessment. The estimated BMDL is approximated to the time-weighted average of the National Institute for Occupational Safety and Health (NIOSH). This value is suggested for the evaluation of the carcinogenic properties of formaldehyde. پرونده مقاله

Control of Substances Hazard to Health (COSHH) Essentials is a simple, user-friendly matrix that provides risk-control solutions. Considering a large number of small enterprises under 25 workers in Iran and the lack of a suitable control banding tool, the COSHH Essentials can be considered an appropriate option. The purpose of the present experimental semi qualitative study was to evaluate the validity of the COSHH Essentials tool. Six processes were selected from a chemical products industry, including the production of silicone glue, polishing, PVC glue, Grease, Twin glue filling, and quality control. Amorphous silica and toluene concentrations were monitored using NIOSH 0600 and NIOSH 1501 in the ambient air of operators. The predicted exposure range (PER) was obtained by combining the control strategies available at the sampling time with exposure predictor (EP) bands in the COSHH Essentials, then compared to silica and toluene concentrations in the air.All exposure data were within the PER for amorphous silica dust and lower or within the PER for toluene. Compared to the acceptable concentration range in hazard bands, the threshold limit value (TLV) for respirable dust is within the acceptable concentration range, while toluene TLV exceeded it. COSHH Essentials is a conservative and safe tool, especially in liquids. Due to its simplicity, ‎employers and health center experts can use the COSHH tool successfully for small enterprises or ‎as a screening tool before a comprehensive risk assessment. پرونده مقاله

Metalworking fluids (MWFs) are complex compounds of oils and chemical additives widely used to cool and lubricate metal machining operations. When sprayed, MWF produces concentrations up to twice the allowable level of US ambient air pollution standards. The study was designed to assess possible relationships between occupational exposure to MWFs and the risk of bladder cancer. Literature entered the study was published from February 2000 to 2021 and provides information on exposure to metalworking fluids and the risk of bladder cancer. We searched PubMed, Scopus, and Web of Sciences from 2000 to 2021. The following subject and keywords were used in the search: “bladder cancer” and “metalworking fluids”. Out of 8 studies, 4 were case-control and 4 were cohort and all of them had high NOS scores. The strong exposure-response relationship between bladder cancer and metalworking fluids reinforces the evidence for MWFs as a bladder carcinogen. The literature review in this study also shows that smoking can increase the risk of bladder cancer due to exposure to metalworking fluids. پرونده مقاله