Non-Hodgkin’s Lymphoma and Specific Pesticide Exposures in Men
Our objective in the study was to investigate the putative associations of specific pesticides with non-Hodgkin’s Lymphoma [NHL; International Classification of Diseases, version 9 (ICD-9) 200, 202]. We conducted a Canadian multicenter population-based incident, case ( n = 517)-control ( n = 1506) s...
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| Veröffentlicht in: | Cancer epidemiology, biomarkers & prevention biomarkers & prevention, 2001-11, Vol.10 (11), p.1155 |
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| creator | Helen H. McDuffie Punam Pahwa John R. McLaughlin John J. Spinelli Shirley Fincham James A. Dosman Diane Robson Leo F. Skinnider Norman W. Choi |
| description | Our objective in the study was to investigate the putative associations of specific pesticides with non-Hodgkin’s Lymphoma
[NHL; International Classification of Diseases, version 9 (ICD-9) 200, 202]. We conducted a Canadian multicenter population-based
incident, case ( n = 517)-control ( n = 1506) study among men in a diversity of occupations using an initial postal questionnaire followed by a telephone interview
for those reporting pesticide exposure of 10 h/year or more, and a 15% random sample of the remainder. Adjusted odds ratios
(ORs) were computed using conditional logistic regression stratified by the matching variables of age and province of residence,
and subsequently adjusted for statistically significant medical variables (history of measles, mumps, cancer, allergy desensitization
treatment, and a positive history of cancer in first-degree relatives). We found that among major chemical classes of herbicides,
the risk of NHL was statistically significantly increased by exposure to phenoxyherbicides [OR, 1.38; 95% confidence interval
(CI), 1.06–1.81] and to dicamba (OR, 1.88; 95% CI, 1.32–2.68). Exposure to carbamate (OR, 1.92; 95% CI, 1.22–3.04) and to
organophosphorus insecticides (OR, 1.73; 95% CI, 1.27–2.36), amide fungicides, and the fumigant carbon tetrachloride (OR,
2.42; 95% CI, 1.19–5.14) statistically significantly increased risk. Among individual compounds, in multivariate analyses,
the risk of NHL was statistically significantly increased by exposure to the herbicides 2,4-dichlorophenoxyacetic acid (2,4-D;
OR, 1.32; 95% CI, 1.01–1.73), mecoprop (OR, 2.33; 95% CI, 1.58–3.44), and dicamba (OR, 1.68; 95% CI, 1.00–2.81); to the insecticides
malathion (OR, 1.83; 95% CI, 1.31–2.55), 1,1,1-trichloro-2,2-bis (4-chlorophenyl) ethane (DDT), carbaryl (OR, 2.11; 95% CI,
1.21–3.69), aldrin, and lindane; and to the fungicides captan and sulfur compounds. In additional multivariate models, which
included exposure to other major chemical classes or individual pesticides, personal antecedent cancer, a history of cancer
among first-degree relatives, and exposure to mixtures containing dicamba (OR, 1.96; 95% CI, 1.40–2.75) or to mecoprop (OR,
2.22; 95% CI, 1.49–3.29) and to aldrin (OR, 3.42; 95% CI, 1.18–9.95) were significant independent predictors of an increased
risk for NHL, whereas a personal history of measles and of allergy desensitization treatments lowered the risk. We concluded
that NHL was associated with specific pesticides after adjustment |
| format | Article |
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[NHL; International Classification of Diseases, version 9 (ICD-9) 200, 202]. We conducted a Canadian multicenter population-based
incident, case ( n = 517)-control ( n = 1506) study among men in a diversity of occupations using an initial postal questionnaire followed by a telephone interview
for those reporting pesticide exposure of 10 h/year or more, and a 15% random sample of the remainder. Adjusted odds ratios
(ORs) were computed using conditional logistic regression stratified by the matching variables of age and province of residence,
and subsequently adjusted for statistically significant medical variables (history of measles, mumps, cancer, allergy desensitization
treatment, and a positive history of cancer in first-degree relatives). We found that among major chemical classes of herbicides,
the risk of NHL was statistically significantly increased by exposure to phenoxyherbicides [OR, 1.38; 95% confidence interval
(CI), 1.06–1.81] and to dicamba (OR, 1.88; 95% CI, 1.32–2.68). Exposure to carbamate (OR, 1.92; 95% CI, 1.22–3.04) and to
organophosphorus insecticides (OR, 1.73; 95% CI, 1.27–2.36), amide fungicides, and the fumigant carbon tetrachloride (OR,
2.42; 95% CI, 1.19–5.14) statistically significantly increased risk. Among individual compounds, in multivariate analyses,
the risk of NHL was statistically significantly increased by exposure to the herbicides 2,4-dichlorophenoxyacetic acid (2,4-D;
OR, 1.32; 95% CI, 1.01–1.73), mecoprop (OR, 2.33; 95% CI, 1.58–3.44), and dicamba (OR, 1.68; 95% CI, 1.00–2.81); to the insecticides
malathion (OR, 1.83; 95% CI, 1.31–2.55), 1,1,1-trichloro-2,2-bis (4-chlorophenyl) ethane (DDT), carbaryl (OR, 2.11; 95% CI,
1.21–3.69), aldrin, and lindane; and to the fungicides captan and sulfur compounds. In additional multivariate models, which
included exposure to other major chemical classes or individual pesticides, personal antecedent cancer, a history of cancer
among first-degree relatives, and exposure to mixtures containing dicamba (OR, 1.96; 95% CI, 1.40–2.75) or to mecoprop (OR,
2.22; 95% CI, 1.49–3.29) and to aldrin (OR, 3.42; 95% CI, 1.18–9.95) were significant independent predictors of an increased
risk for NHL, whereas a personal history of measles and of allergy desensitization treatments lowered the risk. We concluded
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[NHL; International Classification of Diseases, version 9 (ICD-9) 200, 202]. We conducted a Canadian multicenter population-based
incident, case ( n = 517)-control ( n = 1506) study among men in a diversity of occupations using an initial postal questionnaire followed by a telephone interview
for those reporting pesticide exposure of 10 h/year or more, and a 15% random sample of the remainder. Adjusted odds ratios
(ORs) were computed using conditional logistic regression stratified by the matching variables of age and province of residence,
and subsequently adjusted for statistically significant medical variables (history of measles, mumps, cancer, allergy desensitization
treatment, and a positive history of cancer in first-degree relatives). We found that among major chemical classes of herbicides,
the risk of NHL was statistically significantly increased by exposure to phenoxyherbicides [OR, 1.38; 95% confidence interval
(CI), 1.06–1.81] and to dicamba (OR, 1.88; 95% CI, 1.32–2.68). Exposure to carbamate (OR, 1.92; 95% CI, 1.22–3.04) and to
organophosphorus insecticides (OR, 1.73; 95% CI, 1.27–2.36), amide fungicides, and the fumigant carbon tetrachloride (OR,
2.42; 95% CI, 1.19–5.14) statistically significantly increased risk. Among individual compounds, in multivariate analyses,
the risk of NHL was statistically significantly increased by exposure to the herbicides 2,4-dichlorophenoxyacetic acid (2,4-D;
OR, 1.32; 95% CI, 1.01–1.73), mecoprop (OR, 2.33; 95% CI, 1.58–3.44), and dicamba (OR, 1.68; 95% CI, 1.00–2.81); to the insecticides
malathion (OR, 1.83; 95% CI, 1.31–2.55), 1,1,1-trichloro-2,2-bis (4-chlorophenyl) ethane (DDT), carbaryl (OR, 2.11; 95% CI,
1.21–3.69), aldrin, and lindane; and to the fungicides captan and sulfur compounds. In additional multivariate models, which
included exposure to other major chemical classes or individual pesticides, personal antecedent cancer, a history of cancer
among first-degree relatives, and exposure to mixtures containing dicamba (OR, 1.96; 95% CI, 1.40–2.75) or to mecoprop (OR,
2.22; 95% CI, 1.49–3.29) and to aldrin (OR, 3.42; 95% CI, 1.18–9.95) were significant independent predictors of an increased
risk for NHL, whereas a personal history of measles and of allergy desensitization treatments lowered the risk. We concluded
that NHL was associated with specific pesticides after adjustment for other independent predictors.</description><issn>1055-9965</issn><issn>1538-7755</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNqVi0sKwjAURYMotn72kKmDQGJ5rZ0JUulARdB5CelrG7VJaRR15jbcniuxAzcgXDhncG6P-AKCBYsigH7nHIDFcQgeGTl34pxHMcCQeEJEnM_DwCfLnTUstXl51ubzeju6edZNZWtJpcnpoUGlC63oHt1VK50jTR6NdbcWHdWGbtFMyKCQF4fTH8dktk6Oq5RVuqzuusVMSaOw7R4oW1VlgmdCdAMI_mm_9LlBUA</recordid><startdate>20011101</startdate><enddate>20011101</enddate><creator>Helen H. McDuffie</creator><creator>Punam Pahwa</creator><creator>John R. McLaughlin</creator><creator>John J. Spinelli</creator><creator>Shirley Fincham</creator><creator>James A. Dosman</creator><creator>Diane Robson</creator><creator>Leo F. Skinnider</creator><creator>Norman W. Choi</creator><general>American Association for Cancer Research</general><scope/></search><sort><creationdate>20011101</creationdate><title>Non-Hodgkin’s Lymphoma and Specific Pesticide Exposures in Men</title><author>Helen H. McDuffie ; Punam Pahwa ; John R. McLaughlin ; John J. Spinelli ; Shirley Fincham ; James A. Dosman ; Diane Robson ; Leo F. Skinnider ; Norman W. Choi</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-highwire_cancerresearch_10_11_11553</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Helen H. McDuffie</creatorcontrib><creatorcontrib>Punam Pahwa</creatorcontrib><creatorcontrib>John R. McLaughlin</creatorcontrib><creatorcontrib>John J. Spinelli</creatorcontrib><creatorcontrib>Shirley Fincham</creatorcontrib><creatorcontrib>James A. Dosman</creatorcontrib><creatorcontrib>Diane Robson</creatorcontrib><creatorcontrib>Leo F. Skinnider</creatorcontrib><creatorcontrib>Norman W. Choi</creatorcontrib><jtitle>Cancer epidemiology, biomarkers & prevention</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Helen H. McDuffie</au><au>Punam Pahwa</au><au>John R. McLaughlin</au><au>John J. Spinelli</au><au>Shirley Fincham</au><au>James A. Dosman</au><au>Diane Robson</au><au>Leo F. Skinnider</au><au>Norman W. Choi</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Non-Hodgkin’s Lymphoma and Specific Pesticide Exposures in Men</atitle><jtitle>Cancer epidemiology, biomarkers & prevention</jtitle><date>2001-11-01</date><risdate>2001</risdate><volume>10</volume><issue>11</issue><spage>1155</spage><pages>1155-</pages><issn>1055-9965</issn><eissn>1538-7755</eissn><abstract>Our objective in the study was to investigate the putative associations of specific pesticides with non-Hodgkin’s Lymphoma
[NHL; International Classification of Diseases, version 9 (ICD-9) 200, 202]. We conducted a Canadian multicenter population-based
incident, case ( n = 517)-control ( n = 1506) study among men in a diversity of occupations using an initial postal questionnaire followed by a telephone interview
for those reporting pesticide exposure of 10 h/year or more, and a 15% random sample of the remainder. Adjusted odds ratios
(ORs) were computed using conditional logistic regression stratified by the matching variables of age and province of residence,
and subsequently adjusted for statistically significant medical variables (history of measles, mumps, cancer, allergy desensitization
treatment, and a positive history of cancer in first-degree relatives). We found that among major chemical classes of herbicides,
the risk of NHL was statistically significantly increased by exposure to phenoxyherbicides [OR, 1.38; 95% confidence interval
(CI), 1.06–1.81] and to dicamba (OR, 1.88; 95% CI, 1.32–2.68). Exposure to carbamate (OR, 1.92; 95% CI, 1.22–3.04) and to
organophosphorus insecticides (OR, 1.73; 95% CI, 1.27–2.36), amide fungicides, and the fumigant carbon tetrachloride (OR,
2.42; 95% CI, 1.19–5.14) statistically significantly increased risk. Among individual compounds, in multivariate analyses,
the risk of NHL was statistically significantly increased by exposure to the herbicides 2,4-dichlorophenoxyacetic acid (2,4-D;
OR, 1.32; 95% CI, 1.01–1.73), mecoprop (OR, 2.33; 95% CI, 1.58–3.44), and dicamba (OR, 1.68; 95% CI, 1.00–2.81); to the insecticides
malathion (OR, 1.83; 95% CI, 1.31–2.55), 1,1,1-trichloro-2,2-bis (4-chlorophenyl) ethane (DDT), carbaryl (OR, 2.11; 95% CI,
1.21–3.69), aldrin, and lindane; and to the fungicides captan and sulfur compounds. In additional multivariate models, which
included exposure to other major chemical classes or individual pesticides, personal antecedent cancer, a history of cancer
among first-degree relatives, and exposure to mixtures containing dicamba (OR, 1.96; 95% CI, 1.40–2.75) or to mecoprop (OR,
2.22; 95% CI, 1.49–3.29) and to aldrin (OR, 3.42; 95% CI, 1.18–9.95) were significant independent predictors of an increased
risk for NHL, whereas a personal history of measles and of allergy desensitization treatments lowered the risk. We concluded
that NHL was associated with specific pesticides after adjustment for other independent predictors.</abstract><pub>American Association for Cancer Research</pub><pmid>11700263</pmid></addata></record> |
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| source | American Association for Cancer Research; EZB-FREE-00999 freely available EZB journals |
| title | Non-Hodgkin’s Lymphoma and Specific Pesticide Exposures in Men |
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