Publications
Occupational (89 POSTS)
2025 (1 POST)
Lung cancer mortality among aircraft manufacturing workers with long-term, low-level, hexavalent chromium exposure
Lipworth L, Panko JM, Allen BC, Mumma MT, Jiang X, Vincent MJ, Bare JL, Antonijevic T, Vivanco SN, Marano DE, Suh M, Cohen S, Mittal L, Proctor DM. 2025. Lung cancer mortality among aircraft manufacturing workers with long-term, low-level, hexavalent chromium exposure. J Occup Environ Hyg 22(3):214-227; doi: 10.1080/15459624.2024.2439817. PMID: 39773194.
View Abstract2024 (4 POSTS)
Micro-environmental factors impact breathing zone exposures: A simulated petrochemical manufacturing facility task
Eturki M, Davis KG, Vincent M, Arnold SF, Maier A. 2024. Micro-environmental factors impact breathing zone exposures: A simulated petrochemical manufacturing facility task. Arch Environ Occup Health 79(1):11–22; doi: 10.1080/19338244.2024.2328523. PMID: 38555729.
View AbstractIndustry-wide review of potential worker exposure to 1,3-butadiene during chemical manufacturing and processing as a reactant
Panko J, Mittal L, Franke K, Maberti S, Zollers S, Millison K, et al. 2024. Industry-wide review of potential worker exposure to 1,3-butadiene during chemical manufacturing and processing as a reactant. J Occup Environ Hyg 21(1):13-23; doi: 10.1080/15459624.2023.2264329. PMID: 37788445.
View AbstractLung cancer risk and exposure to hexavalent chromium: Results of extended mortality study of workers with low level exposures and quantitative risk assessment using pooled analysis of three cohorts
Allen B, Vincent M, Lipworth L, Panko J, Suh M, Jiang X, Mumma MT, Proctor D. Lung cancer risk and exposure to hexavalent chromium: Results of extended mortality study of workers with low level exposures and quantitative risk assessment using pooled analysis of three cohorts. Poster presentation at Society of Toxicology 63rd Annual Meeting, Salt Lake City, UT, March 2024.
Establishing short-term occupational exposure limits (STELs) for sensory irritants using predictive and in silico respiratory rate depression (RD50) models
Russell AJ, Vincent M, Buerger AN, Dotson S, Lotter J, Maier A. 2024. Establishing short-term occupational exposure limits (STELs) for sensory irritants using predictive and in silico respiratory rate depression (RD50) models. Inhal Toxicol 36(1):13-25; doi: 10.1080/08958378.2023.2299867. PMID: 38252504.
View Abstract2023 (3 POSTS)
The worker microbiome and envirobiomes in the agricultural industry: A narrative review of current applications and understanding
Buerger AN, Allen HL, Divis HR, Encina E, Parker J, Boles C. 2023. The worker microbiome and envirobiomes in the agricultural industry:A narrative review of current applications and understanding. J Pub Health Emerg 7(Sept 25):21; doi: 10.21037/jphe-23-11.
View AbstractThe OEHS professional as a proud ally: Recognizing and controlling common occupational hazards impacting LGBTQ+ workers in the U.S.
Ierardi AM, Price S, Parker J. The OEHS professional as a proud ally: Recognizing and controlling common occupational hazards impacting LGBTQ+ workers in the U.S. American Industrial Hygiene Conference & Expo, Phoenix, AZ, 2023.
The convergence of ESG and Total Worker Health
Costello B, Gauthier A, Harper P, Panko J. The convergence of ESG and Total Worker Health. Platform session at AIHce Exp 2023, Phoenix, AZ, May 2023.
View Abstract2022 (3 POSTS)
PFAS: How did we get here and where are we going?
Racz L. PFAS: How did we get here and where are we going? Keynote address at Alliance of Hazardous Materials Professionals national meeting, Las Vegas, NV, March 2022.
View AbstractEstablishing OELs for sensory irritants with limited data using predictive and in silico models
Bates C, Russell A, Dotson GS, Vincent M, Lotter J, Maier MA. Establishing OELs for sensory irritants with limited data using predictive and in silico models. Poster presentation P126/Abstract 5023, Society of 61st Toxicology Annual Meeting, San Diego, CA. Toxicologist Late-Breaking Supp. 168(1):17. March 2022.
View AbstractEmbracing an Agile and Lean Six Sigma culture for worker health
Racz L. Embracing an Agile and Lean Six Sigma culture for worker health. Presented at Alliance of Hazardous Materials Professionals National Meeting, Las Vegas, NV, Mar 2022.
View Abstract2021 (1 POST)
Derivation of an occupational exposure limit for β-glucans
Parker JA, Boles C, Buerger AN, Fung ES, Maier A. 2021. Derivation of an occupational exposure limit for β-glucans. Regul Toxicol Pharmacol 123(July):104959; doi: 10.1016/j.yrtph.2021.104959. PMID: 34019963.
View Abstract2019 (5 POSTS)
An analysis of workplace exposures to asbestos at three steel mills located in the United States (1972-1982)
Hollins D, Burns A, Unice K, Paustenbach DJ. 2019. An analysis of workplace exposures to asbestos at three steel mills located in the United States (1972-1982). Toxicol Ind Health 35(11-12):726-737; doi: 10.1177/0748233719893905. PMID: 31818240.
View AbstractOccupational survey of airborne metal exposures to welders, metalworkers, and bystanders in small fabrication shops
Insley AL, Maskrey JR, Hallett LA, Reid RCD, Hynds ES, Winter C, Panko JM. Occupational survey of airborne metal exposures to welders, metalworkers, and bystanders in small fabrication shops. Poster at American Industrial Hygiene Conference and Exhibition, Minneapolis, MN, May 2019.
Occupational survey of airborne metal exposures to welders, metalworkers, and bystanders in small fabrication shops
Insley AL, Maskrey JR, Hallett LA, Reid RCD, Hynds ES, Winter C, Panko JM. 2019. Occupational survey of airborne metal exposures to welders, metalworkers, and bystanders in small fabrication shops. J Occup Environ Hyg 16(6):410–421; doi: 10.1080/15459624.2019.1603389.
View AbstractOccupational exposures to cosmetic talc and risk of mesothelioma: An updated pooled cohort and statistical power analysis with consideration of latency period
Marsh GM, Ierardi AM, Benson SM, Finley BL. 2019. Occupational exposures to cosmetic talc and risk of mesothelioma: An updated pooled cohort and statistical power analysis with consideration of latency period. Inhal Toxicol 31(6):213–223; doi: 10.1080/08958378.2019.1645768. PMID: 31380702.
View AbstractResponse to letters regarding “Occupational exposures to cosmetic talc and risk of mesothelioma: An updated pooled cohort and statistical power analysis with consideration of latency period”
Marsh GM, Ierardi AM, Benson SM, Finley BL. 2019. Response to letters regarding “Occupational exposures to cosmetic talc and risk of mesothelioma: An updated pooled cohort and statistical power analysis with consideration of latency period.” Inhal Toxicol 31(11–12):387–391; doi: 10.1080/08958378.2019.1702744. PMID: 31851545.
2018 (1 POST)
Historical evolution of regulatory standards for occupational exposures to industrial talc
Drechsel DA, Barlow CA, Bare JL, Jacobs NF, Henshaw JL. 2018. Historical evolution of regulatory standards for occupational and consumer exposures to industrial talc. Regul Toxicol Pharmacol 92(Feb):251–267; doi: 10.1016/j.yrtph.2017.12.005.
View Abstract2017 (3 POSTS)
Combined analysis of job and task benzene air exposures among workers at four US refinery operations
Burns A, Shin J, Unice KM, Gaffney SH, Kreider ML, Gelatt RN, Panko JM. 2017. Combined analysis of job and task benzene air exposures among workers at four US refinery operations. Toxicol Ind Health 33(3):193–210; doi: 10.1177/0748233715619072. PMID: 26862134.
View AbstractNon-chemical risk assessment for lifting and low back pain based on Bayesian threshold models
Pandalai SP, Wheeler MW, Lu M-L. 2017. Non-chemical risk assessment for lifting and low back pain based on Bayesian threshold models. Saf Health Work 8(2):206-11; doi: 10.1016/j.shaw.2016.10.001. PMCID: PMC5447412.
View Abstract