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Occupational Health Research

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Enhanced preventive programme at a beryllium oxide ceramics facility reduces beryllium sensitization among new workers. Cummings K.J., et al. Occup Environ Med 64:134-140 (2007)
Keeping Beryllium Workers Safe: An Enhanced Preventive Model. Deubner D., Kent M. JOEH 4:D23-D30 (2007)
Empirical evaluation of complex epidemiologic study designs: workplace exposure and cancer. Deubner D.C., Roth H.D., Levy, P.S. J Occup Environ Med. 49(9):95 ( 2007)
Performance of the beryllium blood lymphocyte proliferation test based on a long-term occupational surveillance program. Donovan E.P., et al. Int Arch Occup Environ Health. 81: 165-178 (2007)
Exposure to Beryllium and Occurrence of Lung Cancer: A Reexamination of Findings from a Nested Case-Control Study. Levy, P.S., Roth H.D., Deubner D.C. J Occup Environ Med 49: 96-101 (2007)
Exposure-Reponse Analysis for Beryllium Sensitization and Chronic Beryllium Disease Among Workers in a Beryllium Metal Machining Plant. Madl A.K., et al. JOEH 4:6 448-466 (2007)
Sensitization and Chronic Beryllium Disease among Workers in Copper Beryllium Distribution Centers. Stanton M.L., et al. J Occup Environ Med 48:2004-211 (2006)
Process-Related Risk of Beryllium Sensitization and Disease in a Copper–Beryllium Alloy Facility. Schuler C., et al. Am. J. Ind. Med. 47:195–205 (2005)
Beryllium and Lung Cancer: A Reanalysis of a NIOSH Cohort Mortality Study. Levy P., Roth H., Hwang P., Powers T. Inhalation Toxicology 14:1003-1015 (2002)
Beryllium Sensitization, Chronic Beryllium Disease, and Exposures at a Beryllium Mining and Extraction Facility. Deubner D., et al. Appl Occup Environ Hyg 16(5): 579-592 (2001)
Contribution of Incidental Exposure Pathways to Total Beryllium Exposures. Deubner D., et al. Appl Occup Environ Hyg 16(5): 568-578 (2001)
Variability, Predictive Value, and Uses of the BeBLPT: Preliminary Analysis of the Ongoing Workforce Survey. Deubner D., et al. Appl Occup Environ Hyg 16(5): 521-526 (2001)
Beryllium Exposure Control Program at the Cardiff Atomic Weapons Establishment in the United Kingdom. Johnson J., et al. Appl Occup Environ Hyg 16(5): 619-630 (2001)
Is Total Mass or Mass of Alveolar-Deposited Airborne Particles of Beryllium a Better Predictor of the Prevalence of Disease? Kent M., et al. Appl Occup Environ Hyg 16(5):539-558 (2001)
A Comparison and Critique of Historical and Current Exposure Assessment Methods for Beryllium: Implications for Evaluating Risk of CBD. Kolanz M., et al. Appl Occup Environ Hyg 16(5): 593-614. (2001)
Introduction to Beryllium: Uses, Regulatory History, and Disease. Kolanz, M. Appl Occup Environ Hyg 16(5) 559-567 (2001)
Ultrafine Beryllium Number Concentration as a Possible Metric for Chronic Beryllium Disease Risk. McCawley M. et al. Appl Occup Environ Hyg 16(5): 631-638 (2001)
Case Study: Working Safely with Beryllium Oxide. Berakis M. Occup H&S 5: 34-41 (2009)
An Innovative Safety Model and E-Learning Guide to Working Safely with Beryllium throughout the Industrial Supply Chain. Knudson T.L. and Kolanz M.E. J Appl Occup Environ Hyg 6: 758-761 (2009)
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Biomonitoring for Beryllium: Experience with a U.S. Work Force
Beryllium Blood Lymphocyte Proliferation Test (BLPT): Variability, Predictive Value, Uses
A Chronic Beryllium Disease Prevention Program - Use of Multiple Exposure Pathway Model
Total Mass or Mass of Alveolar-Deposited Airborne Particles of Deposited Airborne Particles of the Prevalence of Disease?A Preliminary Study of a Beryllium Processing Facility

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