Your search keyword '"Field JK"' showing total 3 results

1. Prevalent occupational exposures and risk of lung cancer among women: Results from the application of the Canadian Job-Exposure Matrix (CANJEM) to a combined set of ten case-control studies.

Author

Xu M, Ho V, Lavoué J, Olsson A, Schüz J, Richardson L, Parent ME, McLaughlin JR, Demers PA, Guénel P, Radoi L, Wichmann HE, Ahrens W, Jöckel KH, Consonni D, Landi MT, Richiardi L, Simonato L, 't' Mannetje A, Świątkowska B, Field JK, Pearce N, and Siemiatycki J

Subjects

Humans, Female, 2-Propanol, Canada epidemiology, Dust analysis, Risk Factors, Solvents toxicity, Case-Control Studies, Lung Neoplasms etiology, Lung Neoplasms chemically induced, Occupational Exposure adverse effects, Occupational Exposure analysis, Iron Compounds, Occupational Diseases etiology, Occupational Diseases chemically induced

Abstract

Background: Worldwide, lung cancer is the second leading cause of cancer death in women. The present study explored associations between occupational exposures that are prevalent among women, and lung cancer., Methods: Data from 10 case-control studies of lung cancer from Europe, Canada, and New Zealand conducted between 1988 and 2008 were combined. Lifetime occupational history and information on nonoccupational factors including smoking were available for 3040 incident lung cancer cases and 4187 controls. We linked each reported job to the Canadian Job-Exposure Matrix (CANJEM), which provided estimates of probability, intensity, and frequency of exposure to each selected agent in each job. For this analysis, we selected 15 agents (cleaning agents, biocides, cotton dust, synthetic fibers, formaldehyde, cooking fumes, organic solvents, cellulose, polycyclic aromatic hydrocarbons from petroleum, ammonia, metallic dust, alkanes C18+, iron compounds, isopropanol, and calcium carbonate) that had lifetime exposure prevalence of at least 5% in the combined study population. For each agent, we estimated lung cancer risk in each study center for ever-exposure, by duration of exposure, and by cumulative exposure, using separate logistic regression models adjusted for smoking and other covariates. We then estimated the meta-odds ratios using random-effects meta-analysis., Results and Conclusions: None of the agents assessed showed consistent and compelling associations with lung cancer among women. The following agents showed elevated odds ratio in some analyses: metallic dust, iron compounds, isopropanol, and organic solvents. Future research into occupational lung cancer risk factors among women should prioritize these agents., (© 2024 The Authors. American Journal of Industrial Medicine published by Wiley Periodicals LLC.)

Published

2024

2. Is previous respiratory disease a risk factor for lung cancer?

Author

Denholm R, Schüz J, Straif K, Stücker I, Jöckel KH, Brenner DR, De Matteis S, Boffetta P, Guida F, Brüske I, Wichmann HE, Landi MT, Caporaso N, Siemiatycki J, Ahrens W, Pohlabeln H, Zaridze D, Field JK, McLaughlin J, Demers P, Szeszenia-Dabrowska N, Lissowska J, Rudnai P, Fabianova E, Dumitru RS, Bencko V, Foretova L, Janout V, Kendzia B, Peters S, Behrens T, Vermeulen R, Brüning T, Kromhout H, and C Olsson A

Subjects

Asthma epidemiology, Bronchitis, Chronic epidemiology, Canada epidemiology, Case-Control Studies, Europe epidemiology, Female, Humans, Logistic Models, Lung Neoplasms epidemiology, Male, Middle Aged, Multivariate Analysis, Odds Ratio, Pneumonia epidemiology, Prevalence, Pulmonary Emphysema epidemiology, Risk Factors, Asthma complications, Bronchitis, Chronic complications, Lung Neoplasms etiology, Pneumonia complications, Pulmonary Emphysema complications

Abstract

Rationale: Previous respiratory diseases have been associated with increased risk of lung cancer. Respiratory conditions often co-occur and few studies have investigated multiple conditions simultaneously., Objectives: Investigate lung cancer risk associated with chronic bronchitis, emphysema, tuberculosis, pneumonia, and asthma., Methods: The SYNERGY project pooled information on previous respiratory diseases from 12,739 case subjects and 14,945 control subjects from 7 case-control studies conducted in Europe and Canada. Multivariate logistic regression models were used to investigate the relationship between individual diseases adjusting for co-occurring conditions, and patterns of respiratory disease diagnoses and lung cancer. Analyses were stratified by sex, and adjusted for age, center, ever-employed in a high-risk occupation, education, smoking status, cigarette pack-years, and time since quitting smoking., Measurements and Main Results: Chronic bronchitis and emphysema were positively associated with lung cancer, after accounting for other respiratory diseases and smoking (e.g., in men: odds ratio [OR], 1.33; 95% confidence interval [CI], 1.20-1.48 and OR, 1.50; 95% CI, 1.21-1.87, respectively). A positive relationship was observed between lung cancer and pneumonia diagnosed 2 years or less before lung cancer (OR, 3.31; 95% CI, 2.33-4.70 for men), but not longer. Co-occurrence of chronic bronchitis and emphysema and/or pneumonia had a stronger positive association with lung cancer than chronic bronchitis "only." Asthma had an inverse association with lung cancer, the association being stronger with an asthma diagnosis 5 years or more before lung cancer compared with shorter., Conclusions: Findings from this large international case-control consortium indicate that after accounting for co-occurring respiratory diseases, chronic bronchitis and emphysema continue to have a positive association with lung cancer.

Published

2014

3. Effect modification of the association of cumulative exposure and cancer risk by intensity of exposure and time since exposure cessation: a flexible method applied to cigarette smoking and lung cancer in the SYNERGY Study.

Author

Vlaanderen J, Portengen L, Schüz J, Olsson A, Pesch B, Kendzia B, Stücker I, Guida F, Brüske I, Wichmann HE, Consonni D, Landi MT, Caporaso N, Siemiatycki J, Merletti F, Mirabelli D, Richiardi L, Gustavsson P, Plato N, Jöckel KH, Ahrens W, Pohlabeln H, Tardón A, Zaridze D, Field JK, 't Mannetje A, Pearce N, McLaughlin J, Demers P, Szeszenia-Dabrowska N, Lissowska J, Rudnai P, Fabianova E, Stanescu Dumitru R, Bencko V, Foretova L, Janout V, Boffetta P, Forastiere F, Bueno-de-Mesquita B, Peters S, Brüning T, Kromhout H, Straif K, and Vermeulen R

Subjects

Canada epidemiology, Case-Control Studies, Effect Modifier, Epidemiologic, Europe epidemiology, Humans, Lung Neoplasms epidemiology, Lung Neoplasms prevention & control, Models, Statistical, New Zealand epidemiology, Odds Ratio, Regression Analysis, Risk Factors, Smoking epidemiology, Time Factors, Lung Neoplasms etiology, Smoking adverse effects, Smoking Cessation statistics & numerical data

Abstract

The indiscriminate use of the cumulative exposure metric (the product of intensity and duration of exposure) might bias reported associations between exposure to hazardous agents and cancer risk. To assess the independent effects of duration and intensity of exposure on cancer risk, we explored effect modification of the association of cumulative exposure and cancer risk by intensity of exposure. We applied a flexible excess odds ratio model that is linear in cumulative exposure but potentially nonlinear in intensity of exposure to 15 case-control studies of cigarette smoking and lung cancer (1985-2009). Our model accommodated modification of the excess odds ratio per pack-year of cigarette smoking by time since smoking cessation among former smokers. We observed negative effect modification of the association of pack-years of cigarette smoking and lung cancer by intensity of cigarette smoke for persons who smoked more than 20-30 cigarettes per day. Patterns of effect modification were similar across individual studies and across major lung cancer subtypes. We observed strong negative effect modification by time since smoking cessation. Application of our method in this example of cigarette smoking and lung cancer demonstrated that reducing a complex exposure history to a metric such as cumulative exposure is too restrictive.

Published

2014