Pulmonary microsomal metabolism of benzo(a)pyrene following exposure of rats to silicaSubstantial time savings achieved through computer dust analysisCharacterizing and discriminating airborne amphibole cleavage fragments and amosite fibers: implications for the NIOSH methodComparative cocarcinogenic effects of crocidolite asbestos, hematite, kaolin and carbon in implanted tracheal organ culturesLack of association between antioxidant gene polymorphisms and progressive massive fibrosis in coal minersDetection of mineral-dust-induced DNA damage in two mammalian cell lines using the alkaline single cell gel/comet assayOccupational risk factors for airflow limitation in The Multi-Ethnic Study of Atherosclerosis (MESA) lung studyThe porosity of amosite and chrysotile asbestosOccupational risk factors associated with work-exacerbated asthma in QuebecCharacterization of alveolar macrophage eicosanoid production in a non-human primate model of mineral dust exposure.Comparative evaluation of dust control technologies on percussion rock-drilling rigsNew developments in asbestos-induced pleural disease.Infrared spectra for mineral identificationSilicosis surveillance in New Jersey: targeting workplaces using occupational disease and exposure surveillance dataRespiratory health status of gilsonite workersSilica exposure in hand grinding steel castingsHigh-temperature interactions among minerals occurring in coalCorrelation between autopsy findings for chronic obstructive airways disease and in-life disability in South African gold miners.Occupational exposures and lung cancer risk among Minnesota taconite mining workersInduced sputum assessment in New York City Firefighters exposed to World Trade Center dustHealthy worker effect in a longitudinal study of one-second forced expiratory volume (FEV1) and chronic exposure to granite dust"Worst-case" aerosol testing parameters: III. Initial penetration of charged and neutralized lead fume and silica dust aerosols through clean, unloaded respirator filtersA comparison of the CATHIA-T sampler, the GK2.69 cyclone and the standard cowled sampler for thoracic fiber concentrations at a taconite (iron ore)-processing millAssessment of respiratory exposures during gilsonite mining and milling operationsAcute silicosis responding to corticosteroid therapy.Occupational exposures to fibers and quartz at 19 crushed stone mining and milling operationsThe morbidity and mortality of vermiculite miners and millers exposed to tremolite-actinolite: Part I. Exposure estimatesThe morbidity and mortality of vermiculite miners and millers exposed to tremolite-actinolite: Part II. MortalityThe morbidity and mortality of vermiculite miners and millers exposed to tremolite-actinolite: Part III. Radiographic findingsSilicosis and lung cancer in North Carolina dusty trades workersHealth status of anthracite surface coal minersPrevalence of radiographic small opacities in vermiculite minersDesign and development of a dust dispersion chamber to quantify the dispersibility of rock dustWidening perspectives of occupational lung diseaseMortality patterns among hard rock gold miners exposed to an asbestiform mineralPresence of tungsten-containing fibers in tungsten refining and manufacturing processesEvaluation of the phase contrast microscopy method for the detection of fibrous and other elongated mineral particulates by comparison with a stem techniqueDipalmitoyl lecithin and lung surfactant adsorption at an air-liquid interface by respirable particlesNational Occupational Health Survey of Mining query systemAntimutagenicity studies of chlorophyllin using the Salmonella arabinose-resistant assay system
P921
Q23909317-D7642F09-17EE-42C9-8378-1E05F2E6412AQ23909879-46066166-830D-4B3F-B995-2D7C2C21C7C1Q23909947-40BD4F53-5C70-43F2-B0E5-ACFB46B57CA1Q23910274-23C35898-241D-4A1E-A977-04CA8B967EFCQ23910277-02CA284A-82AC-468C-8777-F33A1E3E9F0BQ23910290-462A5680-9E61-484C-8A29-28F4603A6232Q23910515-2E173F5C-2E2C-48CB-AAAF-DA5631E3DC4AQ23910677-8705AABD-AF44-4317-BA3D-415794B27C43Q23910916-06E76884-25D7-4E89-BA28-13B572F9AB52Q23911387-CC76709E-1FA5-4CF2-B621-97B9E508EE73Q23911621-7D61687F-57D3-44CA-ADA9-3DE82D8F6018Q23911635-000A2BD2-001A-4765-BCE2-350A8D6C4E23Q23911704-A81E00A2-1D2F-431B-9E86-E22D22ECED68Q23911752-8AE2F96B-B6DC-4E48-AB93-293073240792Q23911993-7A7B5273-74A2-4BD0-982F-B233471F0D52Q23912048-F2AF4EFE-A468-414B-A642-F58241AB4318Q23912190-A9B61DB9-49B2-45F4-A3F5-CAE098D35445Q23912301-D3B04131-DE83-4688-8224-B7A6597C6B8DQ23912505-AA967791-31A8-4C28-867E-8BE5E830D49CQ23912507-6A6C0DB7-E4B9-4AA1-9B48-86E8746D657CQ23912523-FD788906-DCBF-4832-92F3-5D592CF40C99Q23912663-976787B0-F5C0-4085-933C-FB77794FF820Q23912717-00B8AE93-36DD-4B17-95D5-A513CFEE2D6BQ23913003-59A33FA9-058D-4E99-B345-B3CCDF303506Q23913097-A6D18E1C-49AD-4562-B94F-E2CEACC502F6Q23913250-3ECD8B24-0D9F-4D29-9B3B-267397AFB7A8Q23913331-3784A50E-84C9-4A16-B508-8EDBC9002427Q23913332-CAEEF147-8464-481B-8ACE-D52F7FD4965FQ23913333-94216C94-43D3-4052-BBAE-B28E2783AB19Q23913334-B895E950-7B77-4A4E-8F65-D02CEBF11A3CQ23913338-E180C216-1EB6-4EAD-9F4C-3769C819E0BCQ23913441-E12E69A3-F4BE-4BC0-87EB-90EB04504986Q23913738-89CAECAD-B571-4B6D-8401-36A50DAE7CDEQ23913759-9166ACDF-34C5-4F92-8ED1-9226BB361B90Q23913865-AD46E63A-2C65-4218-BA45-AB7FA0FF954BQ23913940-D8D45FA7-9211-4006-B1AE-5F3C7B7A59EEQ23914108-05F26F43-683E-4E18-8CE3-6AF97EB90515Q23914451-DD29894B-1DAA-4A4E-9865-D17DC2EA111DQ23914471-4C28DE74-8070-4841-8B30-4DF5DBF66DF0Q23914477-F2616791-074F-4528-A295-2D61BF1DDC00
P921
description
dust made from soil minerals
@en
name
Pols mineral
@ca
Polvo mineral
@es
Staubwolke
@de
mineral dust
@en
Минерална прашина
@sr
минеральная пыль
@ru
мінеральний пил
@uk
אבק מינרלי
@he
غبار معدني
@ar
type
label
Pols mineral
@ca
Polvo mineral
@es
Staubwolke
@de
mineral dust
@en
Минерална прашина
@sr
минеральная пыль
@ru
мінеральний пил
@uk
אבק מינרלי
@he
غبار معدني
@ar
altLabel
Pols del desert
@ca
אבק מדברי
@he
prefLabel
Pols mineral
@ca
Polvo mineral
@es
Staubwolke
@de
mineral dust
@en
Минерална прашина
@sr
минеральная пыль
@ru
мінеральний пил
@uk
אבק מינרלי
@he
غبار معدني
@ar