Joseph D Bowman1, Tapas K Ray, Robert M Park. 1. Engineering and Physical Hazards Branch, National Institute for Occupational Safety and Health NIOSH, Cincinnati, Ohio, USA. jbowman@cdc.gov
Abstract
BACKGROUND: Magnetic fields (MF) from AC electricity are a Possible Human Carcinogen, based on limited epidemiologic evidence from exposures far below occupational health limits. METHODS: To help formulate government guidance on occupational MF, the cancer cases prevented and the monetary benefits accruing to society by reducing workplace exposures were determined. Life-table methods produced Disability Adjusted Life Years, which were converted to monetary values. RESULTS: Adjusted for probabilities of causality, the expected increase in a worker's disability-free life are 0.04 year (2 weeks) from a 1 microtesla (µT) MF reduction in average worklife exposure, which is equivalent to $5,100/worker/µT in year 2010 U.S. dollars (95% confidence interval $1,000-$9,000/worker/µT). Where nine electrosteel workers had 13.8 µT exposures, for example, moving them to ambient MFs would provide $600,000 in benefits to society (uncertainty interval $0-$1,000,000). CONCLUSIONS: When combined with the costs of controls, this analysis provides guidance for precautionary recommendations for managing occupational MF exposures.
BACKGROUND: Magnetic fields (MF) from AC electricity are a Possible Human Carcinogen, based on limited epidemiologic evidence from exposures far below occupational health limits. METHODS: To help formulate government guidance on occupational MF, the cancer cases prevented and the monetary benefits accruing to society by reducing workplace exposures were determined. Life-table methods produced Disability Adjusted Life Years, which were converted to monetary values. RESULTS: Adjusted for probabilities of causality, the expected increase in a worker's disability-free life are 0.04 year (2 weeks) from a 1 microtesla (µT) MF reduction in average worklife exposure, which is equivalent to $5,100/worker/µT in year 2010 U.S. dollars (95% confidence interval $1,000-$9,000/worker/µT). Where nine electrosteel workers had 13.8 µT exposures, for example, moving them to ambient MFs would provide $600,000 in benefits to society (uncertainty interval $0-$1,000,000). CONCLUSIONS: When combined with the costs of controls, this analysis provides guidance for precautionary recommendations for managing occupational MF exposures.
Authors: Ana Navas-Acién; Marina Pollán; Per Gustavsson; Birgitta Floderus; Nils Plato; Mustafa Dosemeci Journal: Cancer Epidemiol Biomarkers Prev Date: 2002-12 Impact factor: 4.254
Authors: Dana P Goldman; Sandra H Berry; Mary S McCabe; Meredith L Kilgore; Arnold L Potosky; Michael L Schoenbaum; Matthias Schonlau; Jane C Weeks; Richard Kaplan; Jose J Escarce Journal: JAMA Date: 2003-06-11 Impact factor: 56.272