MEDLINE Journals

    [Changes in dust content of workplace air during ore extraction at the Bazhenovsk chrysotile asbestos field].

    Authors
    Kashanskiĭ SV, Domnin SG 
    Source
    Med Tr Prom Ekol 2003; (12) :39-42.
    Mesh
    Air Pollutants, Occupational
    Asbestos
    Asbestos, Serpentine
    Dust
    Humans
    Microscopy, Electron
    Microscopy, Electron, Scanning
    Mineral Fibers
    Mining
    Occupational Exposure
    Occupations
    Retrospective Studies
    Seasons
    Siberia
    Language

    rus

    Pub Type(s)
    Comparative Study Journal Article
    PubMed ID

    14753051

    Content Manager
    Related Content

    		Retrospective view of airborne dust levels in workplace of a chrysotile mine in Ural, Russia.

    		Simulation tests to assess occupational exposure to airborne asbestos from artificially weathered asphalt-based roofing products.

    		A technical comparison of evaluating asbestos concentration by phase-contrast microscopy (PCM), scanning electron microscopy (SEM), and analytical transmission electron microscopy (ATEM) as illustrated from data generated from a case report.

    		[Assessment of asbestos exposure, mortality study, and health intervention in workers formerly exposed to asbestos in a small factory making drying machines for textile finishing and the paper mill industry in Pistoia, Italy].

    		Letter to the editor: "Comparing milled fiber, Quebec ore, and textile factory dust: has another piece of the asbestos puzzle fallen into place?" by D. Wayne Berman.

    		Pulmonary mineral fibers after occupational and environmental exposure to asbestos in the Russian chrysotile industry.

    		Asbestos dust exposure during brake repair.

    		Chamber for testing asbestos-containing products: validation and testing of a re-created chrysotile-containing joint compound.