Relationship of asthma to irritant gas exposures in pulp and paper mills.

The potential of chronic or acute irritant gas exposures to cause asthma or a variant condition, reactive airways dysfunction syndrome (RADS) was investigated by observing asthma incidence in a large working population, using person-years at risk (P-YR) to compute relative rates (RR). Health data came from employee examinations at 62 pulp and paper plants. The 39122 workers who denied asthma beginning before the observation period included: 19326 denying irritant exposures, with no gassing exposures; 19349 with self-reported irritant exposures, and no gassing; and 447 with documented gassings. Asthma was defined as self-reported asthma beginning after the start of observation. P-YR accrued from September 29, 1986, for the nonexposed and exposed workers, and from date of first gassing for gassed workers, and ended with disease onset in any who developed asthma. RR of asthma with 95% confidence intervals (CI95) were calculated for the exposed and gassed groups, relative to the nonexposed. Exposed (nongassed) workers had an elevated asthma rate, RR=1.48, CI95=1.17-1.86, after adjustment for effects of gender and number of examinations. The rate in gassed workers was not significantly elevated: RR=1.95, CI95=0.75-5.08. Of the five asthma cases occurring after gassings, none conformed to diagnostic criteria for RADS. Chronic exposures were associated with increased rate of asthma onset, which must be interpreted with caution because self-reported data defined both exposure category and disease. Documented gassings were not associated with significantly increased rate, and none of 447 gassed persons developed RADS.

[1]  C. Byatt,et al.  Long-term effects of exposure to sulfur dioxide. , 1984, The American review of respiratory disease.

[2]  Paul D Blanc,et al.  The history of pulp and paper bleaching: respiratory-health effects , 1997, The Lancet.

[3]  S. Brooks,et al.  The spectrum of irritant-induced asthma: sudden and not-so-sudden onset and the role of allergy. , 1998, Chest.

[4]  S. Greenberg,et al.  Bronchiectasis following pulmonary ammonia burn. , 1982, Archives of pathology & laboratory medicine.

[5]  D. Kleinbaum,et al.  Applied Regression Analysis and Other Multivariate Methods , 1978 .

[6]  N. Brautbar,et al.  Reactive Airway Disease in Patients with Prolonged Exposure to Industrial Solvents , 1997, Toxicology and industrial health.

[7]  P. Blanc,et al.  Chlorine Gas Exposure and the Lung: A Review , 1993, Toxicology and industrial health.

[8]  C. Linden,et al.  Another hot tub hazard. Toxicity secondary to bromine and hydrobromic acid exposure. , 1997, Chest.

[9]  C. Winternitz Collected studies on the pathology of war gas poisoning , 1920 .

[10]  K. Torén,et al.  Respiratory health among bleachery workers exposed to ozone and chlorine dioxide. , 2002, Scandinavian journal of work, environment & health.

[11]  I. Bernstein,et al.  Reactive airways dysfunction syndrome (RADS). Persistent asthma syndrome after high level irritant exposures. , 1985, Chest.

[12]  M. Chan-yeung,et al.  First-aid reports of acute chlorine gassing among pulpmill workers as predictors of lung health consequences. , 1991, American journal of industrial medicine.

[13]  S. Tarlo,et al.  Irritant-induced occupational asthma. , 1989, Chest.

[14]  J. Malo,et al.  Longitudinal assessment of airway caliber and responsiveness in workers exposed to chlorine. , 1999, American journal of respiratory and critical care medicine.

[15]  N. Pearce,et al.  Defining asthma in epidemiological studies. , 1999, The European respiratory journal.

[16]  Gary G. Koch,et al.  Categorical Data Analysis Using The SAS1 System , 1995 .

[17]  Martin Rubin Computerization and automation in health facilities , 1984 .

[18]  B. Ferris,et al.  Epidemiology Standardization Project (American Thoracic Society). , 1978, The American review of respiratory disease.

[19]  J. Malo,et al.  Survey of construction workers repeatedly exposed to chlorine over a three to six month period in a pulpmill: II. Follow up of affected workers by questionnaire, spirometry, and assessment of bronchial responsiveness 18 to 24 months after exposure ended. , 1994, Occupational and environmental medicine.

[20]  M. FitzGerald,et al.  Reactive Airways Dysfunction Syndrome (RADS) due to chlorine gas exposure , 1990, Irish journal of medical science.

[21]  L. Bherer,et al.  Survey of construction workers repeatedly exposed to chlorine over a three to six month period in a pulpmill: I. Exposure and symptomatology. , 1994, Occupational and environmental medicine.

[22]  I. Winblad,et al.  Long-term effects of exposure to sulfur dioxide. Lung function four years after a pyrite dust explosion. , 1983, The American review of respiratory disease.

[23]  G. Koch,et al.  Atypical metaplasia and incidence of bronchogenic carcinoma. , 1990, American journal of epidemiology.

[24]  H. Kipen,et al.  Asthma experience in an occupational and environmental medicine clinic. Low-dose reactive airways dysfunction syndrome. , 1994, Journal of occupational medicine. : official publication of the Industrial Medical Association.

[25]  Price Sk,et al.  Fatal ammonia inhalation. A case report with autopsy findings. , 1983 .

[26]  D. Kleinbaum,et al.  Applied regression analysis and other multivariable methods, 3rd ed. , 1998 .