Correction to: Efective mitigation strategies for reducing workers' exposure to formaldehyde: a systematic review
In: Air quality, atmosphere and health: an international journal, Band 17, Heft 5, S. 1155-1155
ISSN: 1873-9326
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In: Air quality, atmosphere and health: an international journal, Band 17, Heft 5, S. 1155-1155
ISSN: 1873-9326
In: Air quality, atmosphere and health: an international journal, Band 17, Heft 4, S. 877-890
ISSN: 1873-9326
AbstractFormaldehyde is a toxic and carcinogenic compound, still used in several occupational settings due to its properties. Thus, in these working scenarios, it is necessary to provide effective measures to reduce workers' exposure to formaldehyde. The aim of this systematic review is to provide a picture of the worldwide mitigation strategies implemented in occupational environments for minimizing the exposure to formaldehyde and which ones are the most effective for this purpose.The systematic review was performed according to PRISMA statement; the protocol was registered in PROSPERO (CRD42022302207). The search was performed on three electronic databases (PubMed, Scopus, and Web of Science). Studies were considered eligible if they describe strategies for mitigating formaldehyde occupational exposure and their efficacy. We included articles reporting observational studies, semi-experimental, and experimental studies and published in the English language, from the inception to March 26th, 2023. The quality assessment was performed using the Newcastle–Ottawa Quality Assessment Scale.In total, 28 articles were included in the review. The employment scenarios/activities studied were human and veterinary anatomy, autopsy, histopathology or pathology laboratories, embalming procedures, hospital, operating theaters, aquaculture, textile or foundry industries, industry using 3-D printers, offices, and firefighters' activities. Different methods have proven useful in mitigating formaldehyde exposure, such as the use of personal protective equipment, engineering control methods, organization methods, and technical strategies, with a reduction of airborne formaldehyde until to 99.6%. The highest reduction was obtained in an anatomy laboratory through locally exhausted dissection tables equipped with activated carbon filters.The specific suitable procedures should be standardized and applied in all work settings for an appropriate risk management, in order to protect the health of exposed workers.
[Abstract] The alkaline comet assay, or single cell gel electrophoresis, is one of the most popular methods for assessing DNA damage in human population. One of the open issues concerning this assay is the identification of those factors that can explain the large inter-individual and inter-laboratory variation. International collaborative initiatives such as the hCOMET project - a COST Action launched in 2016 - represent a valuable tool to meet this challenge. The aims of hCOMET were to establish reference values for the level of DNA damage in humans, to investigate the effect of host factors, lifestyle and exposure to genotoxic agents, and to compare different sources of assay variability. A database of 19,320 subjects was generated, pooling data from 105 studies run by 44 laboratories in 26 countries between 1999 and 2019. A mixed random effect log-linear model, in parallel with a classic meta-analysis, was applied to take into account the extensive heterogeneity of data, due to descriptor, specimen and protocol variability. As a result of this analysis interquartile intervals of DNA strand breaks (which includes alkali-labile sites) were reported for tail intensity, tail length, and tail moment (comet assay descriptors). A small variation by age was reported in some datasets, suggesting higher DNA damage in oldest age-classes, while no effect could be shown for sex or smoking habit, although the lack of data on heavy smokers has still to be considered. Finally, highly significant differences in DNA damage were found for most exposures investigated in specific studies. In conclusion, these data, which confirm that DNA damage measured by the comet assay is an excellent biomarker of exposure in several conditions, may contribute to improving the quality of study design and to the standardization of results of the comet assay in human populations. ; This article is based upon work from COST Action hCOMET CA15132, supported by COST (European Cooperation in Science and Technology www.cost.eu) - STSM fellowships for Mirta Milić (IMROH, EU 19); IMROH, Zagreb, Croatia, Institute for Medical Research and Occupational Health (IMROH), Zagreb, Croatia, and the Ministry of Science, Education and Sports of the Republic of Croatia (Grant No. 022-0222148-2125) (EU4); Cancer Plan for PestiBG; Grant number: no ENV201401(EU 8, EU9); Italian Ministry of Education, University and Research PRIN 2005, prot. 2005058197 and Cariplo Foundation (Milan, Italy), Rif. Pratica 2007-5810 and Rif. Pratica 2010.2303 (EU 18); Associazione Italiana per la Ricerca sul Cancro (AIRC) (IG 2015/17564). (EU19); European Union Integrated Projects New Generis, 6th Framework Programme, Priority 5: Food Quality and Safety; Newborns and Genotoxic Exposure Risks, FOOD-CT-2005-016320 (EU22); ACT project No. 036APy/09 and No. 005DBB/12 (EU 24); FCT-SFRH/BPD/96196/2013, SFRH/BPD/100948/2014, Portugal (EU 26); MZ 2012/8-UKBA-8; VEGA 1/0703/13, APVV 15-0063 (EU30); Xunta de Galicia (XUGA 10605B98; INCITE08PXIB106155PR; ED481B2016/190-0; Grants ED431B2019/02), Spain (EU 32); Grant 01 173034, Ministry of Education, Science and Technological Development of the Republic of Serbia (EU 42); The Centre for Industrial and Technological Development within National Strategic Consortia for Techical Research (Industrial Research diets and food with specific characteristics for elderly, SENIFOOD); University of Navarra LE/97; Physiopathology of Obesity and Nutrition (CIBER Obn); Carlos III Health Research Institute (CB12/03/30002); Ministerio de Economia y Compatitividad ('Ramón y Cajal' Programme, RYC-2013-14370) of the Spanish Government for personal support (EU 45); the Ministry of Education, Youth and Sports of the Czech Republic project Healthy Aging in Industrial Environment HAIE (CZ.02.1.01/0.0/0.0/16_019/0000798) which is co-financed by the European Union (European Structural and Investment funds; Operation Programme Research, Development and Education); MYES LO 1508 (EU 46); MICRODIAB Study; ClinicalTrials.org (#NCT02231736) (EU 52); The study was funded by the Italian Ministry for Education, University and Scientific Research (MIUR) - Research No. 2005-062547 (EU14, EU53); Projects financed from Serbian Ministry of Education, Science and Technological Development #11146002, #175035, #173034 (EU 54); Mehr foundation organisation, UK (EU 55); MCTI/CNPQ No. 01/2016-Universal; FAPESC No. 09/2015; MEC/MCTI/CAPES/CNPQ/FAPS/ No. 09/2014, Brazil (CSA 6); the National Nuclear Energy Agency of Indonesia (Badan Tenaga Nuklir Nasional) with contract number 080.01.06 3447.001 001.052.A (AS4); Slovak Grant Agency (APVT-21 013202, APVT-21- 017704); Ministry of Health, Slovak Republic (2005/43-SZU-21, 2006/07- SZU-02 MZ SR, 2005/42-SZU-20
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