RATIONALE: Occupational exposure to indium compounds, including indium-tin oxide, can result in potentially fatal indium lung disease. However, the early effects of exposure on the lungs are not well understood. OBJECTIVES: To determine the relationship between short-term occupational exposures to indium compounds and the development of early lung abnormalities. METHODS: Among indium-tin oxide production and reclamation facility workers, we measured plasma indium, respiratory symptoms, pulmonary function, chest computed tomography, and serum biomarkers of lung disease. Relationships between plasma indium concentration and health outcome variables were evaluated using restricted cubic spline and linear regression models. MEASUREMENTS AND MAIN RESULTS: Eighty-seven (93%) of 94 indium-tin oxide facility workers (median tenure, 2 yr; median plasma indium, 1.0 μg/l) participated in the study. Spirometric abnormalities were not increased compared with the general population, and few subjects had radiographic evidence of alveolar proteinosis (n = 0), fibrosis (n = 2), or emphysema (n = 4). However, in internal comparisons, participants with plasma indium concentrations ≥ 1.0 μg/l had more dyspnea, lower mean FEV1 and FVC, and higher median serum Krebs von den Lungen-6 and surfactant protein-D levels. Spline regression demonstrated nonlinear exposure response, with significant differences occurring at plasma indium concentrations as low as 1.0 μg/l compared with the reference. Associations between health outcomes and the natural log of plasma indium concentration were evident in linear regression models. Associations were not explained by age, smoking status, facility tenure, or prior occupational exposures. CONCLUSIONS: In indium-tin oxide facility workers with short-term, low-level exposure, plasma indium concentrations lower than previously reported were associated with lung symptoms, decreased spirometric parameters, and increased serum biomarkers of lung disease.
RATIONALE: Occupational exposure to indium compounds, including indium-tin oxide, can result in potentially fatal indiumlung disease. However, the early effects of exposure on the lungs are not well understood. OBJECTIVES: To determine the relationship between short-term occupational exposures to indium compounds and the development of early lung abnormalities. METHODS: Among indium-tin oxide production and reclamation facility workers, we measured plasma indium, respiratory symptoms, pulmonary function, chest computed tomography, and serum biomarkers of lung disease. Relationships between plasma indium concentration and health outcome variables were evaluated using restricted cubic spline and linear regression models. MEASUREMENTS AND MAIN RESULTS: Eighty-seven (93%) of 94 indium-tin oxide facility workers (median tenure, 2 yr; median plasma indium, 1.0 μg/l) participated in the study. Spirometric abnormalities were not increased compared with the general population, and few subjects had radiographic evidence of alveolar proteinosis (n = 0), fibrosis (n = 2), or emphysema (n = 4). However, in internal comparisons, participants with plasma indium concentrations ≥ 1.0 μg/l had more dyspnea, lower mean FEV1 and FVC, and higher median serum Krebs von den Lungen-6 and surfactant protein-D levels. Spline regression demonstrated nonlinear exposure response, with significant differences occurring at plasma indium concentrations as low as 1.0 μg/l compared with the reference. Associations between health outcomes and the natural log of plasma indium concentration were evident in linear regression models. Associations were not explained by age, smoking status, facility tenure, or prior occupational exposures. CONCLUSIONS: In indium-tin oxide facility workers with short-term, low-level exposure, plasma indium concentrations lower than previously reported were associated with lung symptoms, decreased spirometric parameters, and increased serum biomarkers of lung disease.
Entities:
Keywords:
Krebs von den Lungen-6; fibrosis; occupational lung disease; pulmonary alveolar proteinosis; surfactant protein-D
Authors: Takuro Sakagami; David Beck; Kanji Uchida; Takuji Suzuki; Brenna C Carey; Koh Nakata; Gary Keller; Robert E Wood; Susan E Wert; Machiko Ikegami; Jeffrey A Whitsett; Maurizio Luisetti; Stella Davies; Jeffrey P Krischer; Alan Brody; Fred Ryckman; Bruce C Trapnell Journal: Am J Respir Crit Care Med Date: 2010-03-11 Impact factor: 21.405
Authors: Kristin J Cummings; Walter E Donat; David B Ettensohn; Victor L Roggli; Peter Ingram; Kathleen Kreiss Journal: Am J Respir Crit Care Med Date: 2009-12-17 Impact factor: 21.405
Authors: T Hamaguchi; K Omae; T Takebayashi; Y Kikuchi; N Yoshioka; Y Nishiwaki; A Tanaka; M Hirata; O Taguchi; T Chonan Journal: Occup Environ Med Date: 2007-07-11 Impact factor: 4.402
Authors: Kristin J Cummings; Doug O Johns; Jacek M Mazurek; Frank J Hearl; David N Weissman Journal: Arch Environ Occup Health Date: 2018-12-02 Impact factor: 1.663
Authors: Melissa A Badding; Natalie R Fix; Marlene S Orandle; Mark W Barger; Katherine M Dunnick; Kristin J Cummings; Stephen S Leonard Journal: J Appl Toxicol Date: 2015-10-15 Impact factor: 3.446
Authors: Brie Hawley Blackley; Jenna L Gibbs; Kristin J Cummings; Aleksandr B Stefaniak; Ji Young Park; Marcia Stanton; M Abbas Virji Journal: J Occup Environ Hyg Date: 2019-01-28 Impact factor: 2.155
Authors: Kristin J Cummings; M Abbas Virji; Ji Young Park; Marcia L Stanton; Nicole T Edwards; Bruce C Trapnell; Brenna Carey; Aleksandr B Stefaniak; Kathleen Kreiss Journal: Am J Ind Med Date: 2016-05-24 Impact factor: 2.214