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Pubmed for Handhelds

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Journal Abstract Search

129 related items for PubMed ID: 3177222

  • 1. Correlation of fluorescent tracer measurements of dermal exposure and urinary metabolite excretion during occupational exposure to malathion.
    Fenske RA.
    Am Ind Hyg Assoc J; 1988 Sep; 49(9):438-44. PubMed ID: 3177222
    [Abstract] [Full Text] [Related]

  • 2. Monitoring of pesticide applicators for potential dermal exposure to malathion and biomarkers in urine.
    Tuomainen A, Kangas JA, Meuling WJ, Glass RC.
    Toxicol Lett; 2002 Aug 05; 134(1-3):125-32. PubMed ID: 12191870
    [Abstract] [Full Text] [Related]

  • 3. Assessment of dermal exposure during airless spray painting using a quantitative visualisation technique.
    Brouwer DH, Lansink CM, Cherrie JW, van Hemmen JJ.
    Ann Occup Hyg; 2000 Oct 05; 44(7):543-9. PubMed ID: 11042257
    [Abstract] [Full Text] [Related]

  • 4. Organophosphate pesticide exposure and dialkyl phosphate urinary metabolites among chili farmers in northeastern Thailand.
    Taneepanichskul N, Norkaew S, Siriwong W, Siripattanakul-Ratpukdi S, Maldonado Pérez HL, Robson MG.
    Rocz Panstw Zakl Hig; 2014 Oct 05; 65(4):291-9. PubMed ID: 25526574
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  • 5. Correlation of urinary pesticide metabolite excretion with estimated dermal contact in the course of occupational exposure to Guthion.
    Franklin CA, Fenske RA, Greenhalgh R, Mathieu L, Denley HV, Leffingwell JT, Spear RC.
    J Toxicol Environ Health; 1981 May 05; 7(5):715-31. PubMed ID: 7265305
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  • 6. Biological monitoring of organophosphorus pesticide exposure among children of agricultural workers in central Washington State.
    Loewenherz C, Fenske RA, Simcox NJ, Bellamy G, Kalman D.
    Environ Health Perspect; 1997 Dec 05; 105(12):1344-53. PubMed ID: 9405329
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  • 9. Worker exposure and a risk assessment of malathion and fenthion used in the control of Mediterranean fruit fly in South Australia.
    Edwards JW, Lee SG, Heath LM, Pisaniello DL.
    Environ Res; 2007 Jan 05; 103(1):38-45. PubMed ID: 16914134
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  • 11. Biologic monitoring to characterize organophosphorus pesticide exposure among children and workers: an analysis of recent studies in Washington State.
    Fenske RA, Lu C, Curl CL, Shirai JH, Kissel JC.
    Environ Health Perspect; 2005 Nov 05; 113(11):1651-7. PubMed ID: 16263526
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  • 12. Fluorescent tracer evaluation of chemical protective clothing during pesticide applications in central Florida citrus groves.
    Fenske RA, Birnbaum SG, Methner MM, Lu C, Nigg HN.
    J Agric Saf Health; 2002 Aug 05; 8(3):319-31. PubMed ID: 12363182
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  • 13. The use of biological monitoring in the estimation of exposure during the application of pesticides.
    Franklin CA, Muir NI, Moody RP.
    Toxicol Lett; 1986 Oct 05; 33(1-3):127-36. PubMed ID: 3095958
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  • 15. Reduction of pesticide exposure with protective clothing for applicators and mixers.
    Davies JE, Freed VH, Enos HF, Duncan RC, Barquet A, Morgade C, Peters LJ, Danauskas JX.
    J Occup Med; 1982 Jun 05; 24(6):464-8. PubMed ID: 7097378
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  • 17. Biological monitoring of exposure to organophosphorus insecticides by assay of urinary alkylphosphates: influence of protective measures during manual operations with treated plants.
    Aprea C, Sciarra G, Sartorelli P, Desideri E, Amati R, Sartorelli E.
    Int Arch Occup Environ Health; 1994 Jun 05; 66(5):333-8. PubMed ID: 7896418
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  • 18. Comparative analysis of passive dosimetry and biomonitoring for assessing chlorpyrifos exposure in pesticide workers.
    Geer LA, Cardello N, Dellarco MJ, Leighton TJ, Zendzian RP, Roberts JD, Buckley TJ.
    Ann Occup Hyg; 2004 Nov 05; 48(8):683-95. PubMed ID: 15516344
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  • 20. A toxicokinetic model of malathion and its metabolites as a tool to assess human exposure and risk through measurements of urinary biomarkers.
    Bouchard M, Gosselin NH, Brunet RC, Samuel O, Dumoulin MJ, Carrier G.
    Toxicol Sci; 2003 May 05; 73(1):182-94. PubMed ID: 12657741
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