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Article Abstract
In previous studies, investigators have reported increased risks of specific cancers associated with exposure to metalworking fluids (MWFs). In this report we broadly examine the incidence of 14 types of cancer, with a focus on digestive, respiratory, and hormonal cancers, in the United Auto Workers-General Motors (UAW-GM) cohort, a cohort of workers exposed to MWFs (1973-2015). The cohort included 39,132 workers followed for cancer incidence. Cox models yielded estimates of adjusted hazard ratios, with categorical variables for lagged cumulative exposure to 3 types of MWF (straight, soluble, and synthetic). We fitted penalized splines to examine the shape of the exposure-response relationships. There were 7,809 incident cancer cases of interest. Oil-based straight and soluble MWFs were each modestly associated with all cancers combined. Exposure-response patterns were consistent with prior reports from this cohort, and results for splined exposures generally reflected their categorically modeled counterparts. We found significantly increased incidence of stomach and kidney cancer with higher levels of straight MWF exposure and increased rectal and prostate cancer with increasing water-based synthetic MWF exposure. Only non-Hodgkin lymphoma and prostate cancer were associated with soluble MWF. All results for colon and lung cancers were null. Our results provide updated evidence for associations between MWF exposure and incidence of several types of cancer.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10310982 | PMC |
| http://dx.doi.org/10.1093/aje/kwac190 | DOI Listing |
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Article Synopsis
- Exposure assessments of metalworking fluids (MWF) can be challenging due to their complex nature; this study aimed to evaluate both straight and water-based MWF exposure among workers in 20 workshops.
- The research measured metal and organic carbon content in both new and used MWF, and analyzed air samples for particulate matter, metals, organic carbon, and aldehydes over full work shifts.
- Key findings indicated that while inhalable particle exposure levels were similar for both types of MWF, the gaseous fraction was a significant contributor to overall exposure, highlighting the need for better management and control measures to reduce harmful gaseous emissions.