Biopersistence of respirable synthetic fibers and minerals: the point of view of the epidemiologist.
- 1 October 1994
- journal article
- review article
- Published by Environmental Health Perspectives in Environmental Health Perspectives
- Vol. 102 (suppl 5) , 11-13
- https://doi.org/10.1289/ehp.94102s511
Abstract
Biopersistence of fibers and minerals in human respiratory tissues is an important aspect of the toxicity of these agents. However, few data are available from human studies. Although a number of studies have measured the lung burden of asbestos and other minerals in exposed humans, few presented information relevant to biopersistence of these agents. The studies analyzing asbestos lung burden in workers at different intervals following cessation of exposure suggest a linear decrease in concentration over time, that is independent of duration of exposure. However, the available evidence on asbestos is too sparse to allow a firm conclusion; almost no data are available on other minerals.Keywords
This publication has 10 references indexed in Scilit:
- Effects of Work Exposure, Retirement, and Smoking on Bronchoalveolar Lavage Measurements of Lung Dust in Vermont Granite WorkersAmerican Review of Respiratory Disease, 1991
- Effects of fiber characteristics on lung deposition, retention, and disease.Environmental Health Perspectives, 1990
- Human disease consequences of fiber exposures: a review of human lung pathology and fiber burden data.Environmental Health Perspectives, 1990
- A conceptual framework for the validation and use of biologic markersEnvironmental Research, 1989
- Respiratory cancer in chrysotile textile and mining industries: exposure inferences from lung analysis.Occupational and Environmental Medicine, 1989
- A COMPARISON OF THE FERRUGINOUS BODY AND UNCOATED FIBER CONTENT IN THE LUNGS OF FORMER ASBESTOS WORKERSPublished by Elsevier ,1985
- Fibre type and concentration in the lungs of workers in an asbestos cement factory.Occupational and Environmental Medicine, 1983
- Mesothelioma mortality in asbestos workers: Implications for models of carcinogenesis and risk assessmentBritish Journal of Cancer, 1982
- Multistage Models and Primary Prevention of CancerJNCI Journal of the National Cancer Institute, 1980
- An examination of the fibrous mineral content of asbestos lung tissue from the Canadian chrysotile mining industryEnvironmental Research, 1976