An Industry-wide Pulmonary Study of Men and Women Manufacturing Refractory Ceramic Fibers

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American Journal of Epidemiology Vol. 148, No. 9: 910-919
Copyright © 1998 by The Johns Hopkins University School of Hygiene and Public Health

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An Industry-wide Pulmonary Study of Men and Women Manufacturing Refractory Ceramic Fibers

Grace Kawas Lemasters¹^,, James E. Lockey¹, Linda S. Levin¹, Roy T. McKay¹, Carol H. Rice¹, Edward P. Horvath², Diane M. Papes¹, John W. Lu¹ and Daniel J. Feldman¹

¹Department of Environmental Health, Univesity of Cincinnati College of Medicine Cincinnati,OH
²The Cleveland Clinic Foundation, Cleveland, OH

Reprint requests to Dr. Grace Kawas Lemasters, Division of Epidemiology and Biostatistics, University of Cincinnati, P.O. Box 670182, Cincinnati, OH 45267-0182.

An industry-wide pulmonary morbidity study was undertaken toevaluate the respiratory health of employees manufacturing refractoryceramic fibers at five US sites between 1987 and 1989. Refractoryceramic fibers are man-made vitreous fibers used for high temperatureinsulation. Of the 753 eligible current employees, 742 providedoccupational histories and also completed the American ThoracicSociety respiratory symptom questionnaire; 736 also performedpulmonary function tests. Exposure to refractory ceramic fiberswas characterized by classifying workers as production or nonproductionemployees and calculating the duration of time spent in productionemployment. The risk of working in the production of refractoryceramic fibers and having one or more respiratory symptoms wasestimated by adjusted odds ratios and found to be 2.9 (95 percentconfidence interval 1.4–6.2) for men and 2.4 (95 percentconfidence interval 1.1–5.3) for women. The effect ofexposure to refractory ceramic fibers on forced vital capacity(FVC), forced expiratory volume in 1 second (FEV₁), the ratioof the two (FEV₁/FVC), and forced expiratory flow (liters/second)between 25 percent and 75 percent of the FVC curve (FEF_25-75)was evaluated by multiple regression analysis using transformedvalues adjusted for height, by dividing by the square of eachindividual's height. For men, there was a significant declinein FVC for current and past smokers of 165.4 ml (p < 0.01)and 155.5 ml (p = 0.04), respectively, per 10 years of workin the production of refractory ceramic fibers. For FEV₁₇ thedecline was significant (p < 0.01) only for current smokersat 134.9 ml. For women, the decline was greater and significantfor FVC among nonsmokers, who showed a decrease of 350.3 ml(p = 0.05) per 10 years of employment in the production of refractoryceramic fibers. These findings indicate that there may be importantsex differences in response to occupational and/or environmentalexposure. Am J Epidemiol 1998;148:910–19. occupationalexposure; occupations; respiratory function tests; sex; spirometry

occupational exposure; occupations; respiratory function tests; sex; spirometry

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