TY - JOUR
T1 - Sinonasal cancer and occupational exposures
T2 - A pooled analysis of 12 case-control studies
AU - Luce, Danièle
AU - Leclerc, Annette
AU - Bégin, Denis
AU - Demers, Paul A.
AU - Gérin, Michel
AU - Orlowski, Ewa
AU - Kogevinas, Manolis
AU - Belli, Stefano
AU - Bugel, Isabelle
AU - Bolm-Audorff, Ulrich
AU - Brinton, Louise A.
AU - Comba, Pietro
AU - Hardell, Lennart
AU - Hayes, Richard B.
AU - Magnani, Corrado
AU - Merler, Enzo
AU - Preston-Martin, Susan
AU - Vaughan, Thomas L.
AU - Zheng, Wei
AU - Boffetta, Paolo
N1 - Funding Information:
1Inserm Unité 88, Saint-Maurice, France; 2Université de Montréal, Montreal, Canada; 3University of British Columbia, Vancouver, Canada; 4Inserm E9909 Créteil, France; 5Institut Municipal d’Investigacio Mèdica (IMIM), Barcelona, Spain; 6Instituto Superiore di Sanita, Rome, Italy; 7Hessiches Ministerium für Frauen, Arbeit und Sozialordnung, Wiesbaden, Germany; 8National Cancer Institute, Bethesda, USA; 9Örebro Medical Center, Örebro, Sweden; 10University of Turin, Turin, Italy; 11Centro per lo Studio et la Prevenzione Oncologica, Florence, Italy; 12University of Southern California, Los Angeles, USA; 13Fred Hutchinson Cancer Research Center, Seattle, USA; 14Vanderbilt University, Nashville, USA; 15International Agency for Research on Cancer, Lyon, France
PY - 2002
Y1 - 2002
N2 - Objective: In order to examine the associations between sinonasal cancer and occupational exposures other than wood dust and leather dust, the data from 12 case-control studies conducted in seven countries were pooled and reanalyzed. Methods: The pooled data set included 195 adenocarcinoma cases (169 men and 26 women), 432 squamous cell carcinomas (330 men and 102 women), and 3136 controls (2349 men and 787 women). Occupational exposures to formaldehyde, silica dust, textile dust, coal dust, flour dust, asbestos, and man-made vitreous fibers were assessed with a job-exposure matrix. Odds ratios (ORs) were adjusted for age, study, wood dust, and leather dust, or other occupational exposures when relevant. 95% confidence intervals (CIs) were estimated by unconditional logistic regression. Results: A significantly increased risk of adenocarcinoma was associated with exposure to formaldehyde. The ORs for the highest level of exposure were 3.0 (CI=1.5-5.7) among men and 6.2 (CI=2.0-19.7) among women. An elevated risk of squamous cell carcinoma was observed among men (OR=2.5, CI=0.6-10.1) and women (OR=3.5, CI=1.2-10.5) with a high probability of exposure to formaldehyde. Exposure to textile dust was associated with non-significantly elevated risk of adenocarcinoma, among women only: the OR for the high level of cumulative exposure was 2.5 (CI=0.7-9.0). High level of asbestos exposure was associated with a significantly increased risk of squamous cell carcinoma among men (OR=1.6, CI=1.1-2.3). Conclusions: The results of this pooled analysis support the hypothesis that occupational exposure to formaldehyde increases the risk of sinonasal cancer, particularly of adenocarcinoma. They also indicate an elevated risk of adenocarcinoma among women exposed to textile dust, and suggest that exposure to asbestos may increase the risk of squamous cell carcinoma.
AB - Objective: In order to examine the associations between sinonasal cancer and occupational exposures other than wood dust and leather dust, the data from 12 case-control studies conducted in seven countries were pooled and reanalyzed. Methods: The pooled data set included 195 adenocarcinoma cases (169 men and 26 women), 432 squamous cell carcinomas (330 men and 102 women), and 3136 controls (2349 men and 787 women). Occupational exposures to formaldehyde, silica dust, textile dust, coal dust, flour dust, asbestos, and man-made vitreous fibers were assessed with a job-exposure matrix. Odds ratios (ORs) were adjusted for age, study, wood dust, and leather dust, or other occupational exposures when relevant. 95% confidence intervals (CIs) were estimated by unconditional logistic regression. Results: A significantly increased risk of adenocarcinoma was associated with exposure to formaldehyde. The ORs for the highest level of exposure were 3.0 (CI=1.5-5.7) among men and 6.2 (CI=2.0-19.7) among women. An elevated risk of squamous cell carcinoma was observed among men (OR=2.5, CI=0.6-10.1) and women (OR=3.5, CI=1.2-10.5) with a high probability of exposure to formaldehyde. Exposure to textile dust was associated with non-significantly elevated risk of adenocarcinoma, among women only: the OR for the high level of cumulative exposure was 2.5 (CI=0.7-9.0). High level of asbestos exposure was associated with a significantly increased risk of squamous cell carcinoma among men (OR=1.6, CI=1.1-2.3). Conclusions: The results of this pooled analysis support the hypothesis that occupational exposure to formaldehyde increases the risk of sinonasal cancer, particularly of adenocarcinoma. They also indicate an elevated risk of adenocarcinoma among women exposed to textile dust, and suggest that exposure to asbestos may increase the risk of squamous cell carcinoma.
KW - Adenocarcinoma
KW - Asbestos
KW - Case-control studies
KW - Formaldehyde
KW - Occupational exposures
KW - Sinonasal cancer
KW - Squamous cell carcinoma
KW - Textile dust
UR - http://www.scopus.com/inward/record.url?scp=0036123051&partnerID=8YFLogxK
U2 - 10.1023/A:1014350004255
DO - 10.1023/A:1014350004255
M3 - Article
SN - 0957-5243
VL - 13
SP - 147
EP - 157
JO - Cancer Causes and Control
JF - Cancer Causes and Control
IS - 2
ER -