OBJECTIVES This study investigated lung function in workers exposed to dusts, fumes and noxious gases at small foundries. METHODS Lung function was measured in 148 male workers from 12 small foundries and 202 unexposed male workers. Pulmonary function tests performed included: forced vital capacity (FVC), forced expiratory volume in one second (FEV1), percent of FEV1/FVC (FEV1/FVC%), maximum mid-expiratory flow (MMEF), peak expiratory flow (PEF), and forced expiratory flow at 25, 50, and 75% of expired FVC (FEF25, 50, 75). RESULTS Mean values of all ventilatory indices except FEF25 of foundry workers were significantly lower than those of controls. Specifically, following stratification by smoking habits, all ventilatory indices except FEF25 of foundry workers were significantly lower than those of controls who smoked; however, there were no significant differences observed in any ventilatory indices between nonsmoking exposed workers and controls. The results of multiple linear regression analysis indicated work duration as a significant predictor of a decrease in FVC%. CONCLUSIONS This research indicates that combined occupational exposure to dust, fumes, and gases in small foundries is associated with a reduction in lung function. Smoking may also contribute to respiratory abnormalities. These results suggested that foundry workers should be required to undergo periodic lung function tests and-in addition to not smoking, efficient use of personal protection equipment while at work is recommended.
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Cause-Specific Mortality Due to Malignant and Non-Malignant Disease in Korean Foundry Workers Jin-Ha Yoon, Yeon-Soon Ahn, Suminori Akiba PLoS ONE.2014; 9(2): e88264. CrossRef
Pulmonary function decline in firefighters and non-firefighters in South Korea Ju-Hwan Choi, Jae-Hong Shin, Mi-Young Lee, In-Sung Chung Annals of Occupational and Environmental Medicine.2014;[Epub] CrossRef
BACKGROUND Smoking, upper respiratory tract infection, genetic factors and hydrocarbons are known as risk factors of Goodpasture's syndrome. We studied a patient with Goodpasture's syndrome who had worked for 27 years in a foundry company. Based on a study on the work-relatedness of the syndrome, we describe and discuss our study results. CASE A 46-year-old man, who had worked as a foundry worker for 27 years and had a 12 1/2 packyear history of smoking cigarettes, was admitted into a hospital on 15th February 2006 with coughing, chest pain and dyspnea. On admission, he had hematuria, proteinuria, severe restrictive pulmonary function disorder and rapid elevation of blood urea nitrogen/creatinine. Immunological examination showed ANA (+), ANCA (-) and Anti-GBM Ab (+). Kidney biopsy showed pauci-immune crescentic glomerulonephritis. Mild bleeding was revealed through bronchoscopy and no vasculitis and granuloma were present on at lung biopsy. Finally, we diagnosed the worker's illness as Goodpasture's syndrome and carried out hemodialysis and plasmapheresis. In the workplace survey, the exposure level of respirable crystalline silica exceeded the TLV-TWA (0.0106 mg/m3), which was calibrated for overtime. CONCLUSION Based on both the clinical test and industrial hygiene examination, we concluded that the Goodpasture's syndrome in this case was caused by long-term silica exposure.
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Citations to this article as recorded by
Cause-Specific Mortality Due to Malignant and Non-Malignant Disease in Korean Foundry Workers Jin-Ha Yoon, Yeon-Soon Ahn, Suminori Akiba PLoS ONE.2014; 9(2): e88264. CrossRef
Goodpasture’s Syndrome and p-ANCA Associated Vasculitis in a Patient of Silicosiderosis: An Unusual Association Amanjit Bal, Ashim Das, Dheeraj Gupta, Mandeep Garg Case Reports in Pulmonology.2014; 2014: 1. CrossRef
Goodpasture's Syndrome and Silica: A Case Report and Literature Review James Dahlgren, Marla Wardenburg, Trevor Peckham Case Reports in Medicine.2010; 2010: 1. CrossRef
In order to study the exposure level of silica dust and the effects of silica dust on ventilatory function, respirable dust samples were collected by personal air samplers using NIOSH method 0500 from the selected foundry operations, and ventilatory function tests were performed on 209 male foundry workers and 239 male control subjects. Ventilatory indices such as forced vital capacity (FVC) , one-second forced expiratory volume (FEV1), ratio of FEV1 to FVC(FEV1 %), maximal mid-expiratory flow(MMF), peak expiratory flow rate (PEFR) and maximal expiratory flow at 25, 50 and 75 % of expired FVC (FEF25, FEF50, FEF75 were obtained by analyzing forced expiratory spirogram and maximal expiratory flow-volume curve which were simultaneously measured by Vitalography in standing position. The results were as follows : 1. The average quartz concentrations of respirable dust were the highest in melting operation (0.079 mg/m3) and followed by molding operation (0.051 mg/m3), finishing operation (0.041 mg/m3) and coremaking operation (0.023 mg/m3) in the descending order. 2. No significant differences for mean values of all ventilatory indices expressed as percent of predicted value were demonstrated between smokers and nonsmokers In foundry workers and control subjects. 3. Mean values of all ventilatory indices except FVC of foundry workers were significantly lower than those of control subjects. 4. Mean values of FEV1 %, MMF, FEF25, FEF50 and FEF75 expressed as percent of predicted value tended to decrease with increasing cumulative dust exposure. 5. In foundry workers, proportions of workers with low MMF, FEF50 and FEF75 were markedly higher than those with other indices, and were significantly increased with increasing cumulative dust exposure. 6. In foundry workers, 2 workers(1.0 %) were diagnosed as silicosis and the profusion of radiographic opacities were category 1/0 and q type. With the above considerations in mind, it suggested that increasing exposure of silica dust be associated with progressive deterioration in ventilatory function of an obstructive nature and that MMF, FEF50 and FEF75 be more sensitive indices in the detection of the early obstructive changes of air flow of workers exposed to silica dust.