Fonofos exposure and cancer incidence in the agricultural health study.BACKGROUND: The Agricultural Health Study (AHS AHS Assistant House Surgeon. ) is a prospective cohort study A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute of licensed pesticide applicators from Iowa and North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. enrolled 1993-1997 and followed for incident cancer through 2002. A previous investigation in this cohort linked exposure to the organophosphate organophosphate /or·ga·no·phos·phate/ (or?gah-no-fos´fat) an organic ester of phosphoric or thiophosphoric acid; such compounds are powerful acetylcholinesterase inhibitors and are used as insecticides and nerve gases. fonofos with incident prostate cancer prostate cancer, cancer originating in the prostate gland. Prostate cancer is the leading malignancy in men in the United States and is second only to lung cancer as a cause of cancer death in men. in subjects with family history of prostate cancer. OBJECTIVES: This finding along with findings of associations between organophosphate pesticides organophosphate pesticide A phosphorus-rich organic compound–eg, parathion, that contain a halide which phosphorylates cholinesterase and irreversibly inhibits its activity Management Atropine, pralidoxime and cancer more broadly led to this study of fonofos and risk of any cancers among 45,372 pesticide applicators enrolled in the AHS. METHODS: Pesticide exposure and other data were collected using self-administered questionnaires. Poisson regression In statistics, the Poisson regression model attributes to a response variable Y a Poisson distribution whose expected value depends on a predictor variable x, typically in the following way: n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. (CIs) while controlling for potential confounders. RESULTS: Relative to the unexposed, leukemia leukemia (l  kē`mēə), cancerous disorder of the blood-forming tissues (bone marrow, lymphatics, liver, spleen) characterized by excessive production of immature or mature risk was elevated in
the highest category of lifetime (RR = 2.24; 95% CI, 0.94-5.34,
[p.sub.trend] = 0.07) and intensity-weighted exposure-days (RR = 2.67;
95% CI, 1.06-6.70, [p.sub.trend] = 0.04), a measure that takes into
account factors that modify pesticide exposure. Although prostate cancer
risk was unrelated to fonofos use overall, among applicators with a
family history of prostate cancer, we observed a significant
dose-response trend for lifetime exposure-days ([p.sub.trend] = 0.02, RR
highest tertile vs. unexposed = 1.77, 95% CI, 1.03-3.05;
R[R.sub.interaction] = 1.28, 95% CI, 1.07-1.54). Intensity-weighted
results were similar. No associations were observed with other examined
cancer sites.
CONCLUSIONS: Further study is warranted to confirm findings with respect to leukemia and determine whether genetic susceptibility modifies prostate cancer risk from pesticide exposure. KEY WORDS: agriculture, fonofos, insecticides insecticides, chemical, biological, or other agents used to destroy insect pests; the term commonly refers to chemical agents only. Chemical Insecticides , neoplasms, occupational exposure, organophosphorus compounds organophosphorus compound an organic ester of phosphoric or thiophosphoric acid; such compounds are powerful acetylcholinesterase inhibitors and are used as insecticides and anthelmintics. , organothiophosphorus compounds, pesticides. Environ Health Perspect 114:1838-1842 (2006). doi:10.1289/ehp.9301 available via http://dx.doi.org/ [Online 18 August 2006] ********** Fonofos (O-ethyl S-phenyl ethylphosphonodithioate), first registered for use with the U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ) in 1967, is an organophosphate insecticide insecticide Any of a large group of substances used to kill insects. Such substances are mainly used to control pests that infest cultivated plants and crops or to eliminate disease-carrying insects in specific areas. applied to soil to protect mainly corn but also sugarcane, peanuts, tobacco, and several other crops from various types of worms (U.S. EPA 1999). Fonofos has no residential uses. In 1998, the registrant An individual or organization that signs up (registers) for a training class or service. See domain name registrar. of fonofos voluntarily cancelled its registration (U.S. EPA 1999). The current state of knowledge regarding the health effects of fonofos is limited. The few studies examining the genotoxicity Genotoxic substances are a type of carcinogen, specifically those capable of causing genetic mutation and of contributing to the development of tumors. This includes both certain chemical compounds and certain types of radiation. and mutagenicity mutagenicity /mu·ta·ge·nic·i·ty/ (-je-nis´it-e) the property of being able to induce genetic mutation. mutagenicity the property of being able to induce genetic mutation. of fonofos have had inconsistent results. Gentile et al. (1982) found fonofos to be mutagenic mutagenic inducing genetic mutation. both directly and after metabolic activation in assays using both Saccharomyces Saccharomyces: see yeast. cerevisiae and Salmonella typhimurium Salmonella ty·phi·mu·ri·um n. A bacterium that causes food poisoning. , but Simmons et al. (1979) found it to be negative in both assays. To our knowledge, there have been no studies of fonofos in whole animals published in the peer-reviewed literature. However, several proprietary 2-year feeding studies conducted for regulatory evaluation found no tumors in rats and mice from the administration of fonofos (California Department of Pesticide Regulation 1997). The epidemiologic evidence linking fonofos with cancer is suggestive, but insufficient to establish a causal relationship. Early case-control studies case-control study, n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. of non-Hodgkin lymphoma Non-Hodgkin lymphoma (NHL) describes a group of cancers arising from lymphocytes, a type of white blood cell. It is distinct from Hodgkin lymphoma in its pathologic features, epidemiology, common sites of involvement, clinical behavior, and treatment. (NHL NHL Non-Hodgkin's lymphoma, see there ) and leukemia risk factors among farmers pointed toward the class of organophosphates (Brown et al. 1990; Cantor et al. 1992; Clavel et al. 1996; Zahm et al. 1993). Later, to evaluate specific pesticides as risk factors for NHL, Waddell et al. (2001) and De Roos et al. (2003) pooled three population-based case-control studies conducted in the midwestern United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. and found odds ratios (ORs) for fonofos exposure of 1.7 [95% confidence interval (CI), 1.1-2.6] and 1.8 (95% CI, 0.9-3.5), respectively. Further, because NHL is associated with a compromised immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. , Lee et al. (2004) pooled two of the studies to evaluate risk from pesticide exposure and asthma, a marker of immune alteration, and observed an elevated main effect for fonofos use (OR = 1.6; 95% CI, 1.0-2.4) as well as an elevated joint effect of fonofos use and asthma (OR = 3.7; 95% CI, 1.3-10.9). In addition, in a tumor-specific analysis of the Agricultural Health Study (AHS), fonofos has been significantly associated with prostate cancer among applicators with a family history of prostate cancer (OR = 1.80; 95% CI, 1.14-2.84) (Alavanja et al. 2003). Moreover, other chemically similar pesticides of the organothiophosphate subclass In programming, to add custom processing to an existing function or subroutine by hooking into the routine at a predefined point and adding additional lines of code. subclass - derived class have also been associated with prostate cancer and lung cancer lung cancer, cancer that originates in the tissues of the lungs. Lung cancer is the leading cause of cancer death in the United States in both men and women. Like other cancers, lung cancer occurs after repeated insults to the genetic material of the cell. in tumor-specific analyses (Alavanja et al. 2003, 2004). In light of the evidence linking fonofos to prostate cancer in the previous tumor-specific analysis and the literature linking fonofos to leukemia and NHL, our primary aim was to study fonofos use with respect to incident cancer of all types in a chemical specific analysis among 45,372 participants of the AHS. Our secondary aim was to use more detailed exposure information along with an additional 3.2 years of follow-up since the previous prostate cancer analysis, which provided 87 new prostate cancer cases with prostate cancer family history information, to see if the prostate cancer finding held. Materials and Methods Enrollment and follow-up. The AHS has been described previously (Alavanja et al. 1996). Briefly, it is a prospective cohort of 52,395 private applicators (farmers) from Iowa and North Carolina and 4,916 commercial applicators (employees of pest control pest control n → control m de plagas pest control n → lutte f contre les nuisibles pest control pest n companies or businesses whose primary function is not pesticide application) from Iowa licensed to apply restricted use pesticides Because of safety concerns, some pesticides are not available to the general public in the United States. The "Restricted Use" classification restricts a product, or its uses, to use by a certificated pesticide applicator or under the direct supervision of a certified applicator. . This cohort represents 82% of eligible applicators from both states during the enrollment period of the study (13 December 1993 to 31 December 1997). Population-based cancer registries A cancer registry is a systematic collection of data about cancer and tumor diseases. The data is collected by Cancer Registrars. Cancer Registrars capture a complete summary of patient history, diagnosis, treatment, and status for every cancer patient in the United States, and of both states were used to identify subjects with incident cancer diagnoses between enrollment and 31 December 2002. Subjects who died or moved out of the state were censored cen·sor n. 1. A person authorized to examine books, films, or other material and to remove or suppress what is considered morally, politically, or otherwise objectionable. 2. in the year of occurrence of either event. Vital status was ascertained using state death registries and the National Death Index. Residence information was obtained through motor vehicle records, pesticide registration records, and address files of the Internal Revenue Service. To date, average follow-up time is 7.5 years and follow-up is > 98% complete. All participants provided informed consent, and the research protocol was approved by all appropriate institutional review boards. Exposure assessment. On enrollment, pesticide applicators seeking a restricted-use pesticide license completed a self-administered questionnaire. The questionnaire obtained detailed exposure information (days of use per year, years of use, and decade of first use) for 22 pesticides (including fonofos) and ever/never use information for 28 additional pesticides, as well as information on application methods, pesticide mixing status, personal protective equipment use, personal equipment repair, smoking, current alcohol use, cancer history in first-degree relatives, and basic demographic data. For some analyses, we used information on solvent exposure The solvent exposure of an amino acid in a protein measures to what extent the amino acid is accessible to the solvent (usually water) surrounding the protein. Generally speaking, hydrophobic amino acids will be buried inside the protein and thus shielded from the solvent, while that was collected using a self-administered take-home questionnaire completed by 44% of those enrolled [both questionnaires available at http://www.aghealth. org/questionnaires.html (AHS 2006)]. We estimated fonofos exposure in terms of cumulative fonofos lifetime exposure-days and intensity-weighted exposure-days. We calculated lifetime exposure-days as the cross-product of the questionnaire categories for frequency of fonofos use in an average year and the number of years of fonofos use, using the midpoints of the questionnaire categories. We assessed intensity of exposure using an algorithm developed by Dosemeci et al. (2002). This algorithm calculates an intensity score that takes into account the effect of modifying factors, such as how often an applicator ap·pli·ca·tor n. An instrument for applying something, such as a medication. applicator, n a device for applying medication; usually a slender rod of glass or wood, used with a pledget of cotton on the end. personally mixed or prepared the pesticide, the type of application methods used, whether an applicator personally repaired pesticide application equipment, and the type of personal protective equipment used. By multiplying the intensity score with fonofos lifetime exposure-days, we obtained fonofos intensity-weighted exposure-days. Statistical analysis. All pesticide applicators who returned an enrollment questionnaire were eligible for analysis. We excluded applicators if they did not provide information on fonofos exposure duration (n = 5,987); if their first primary cancer occurred before enrollment (n = 937), if they did not live in either state on enrollment (n = 295); or if they did not provide information on birth year (n = 2), smoking (n = 1,664), or use of correlated pesticides (n = 3,054). After exclusions, 45,372 subjects were available for the lifetime exposure-days analysis. The intensity-weighted exposure-days analysis contained four fewer cancer cases and 55 fewer cancer-free subjects because of missing data on intensity metric covariates. Compared with retained subjects, excluded subjects were generally older and more likely to be from North Carolina. We categorized cat·e·go·rize tr.v. cat·e·go·rized, cat·e·go·riz·ing, cat·e·go·riz·es To put into a category or categories; classify. cat fonofos lifetime exposure-days and intensity-weighted exposure-days into tertiles based on the distribution of exposure among all cancer cases. Because the tertiles of intensity-weighted exposure-days based on the exposure distribution among all cancer cases resulted in categories inadequate for analyzing leukemia (one case in the lowest exposed group), we created more uniform tertiles for leukemia based on the exposure distribution among leukemia cases. We used two different reference groups--the unexposed and the lowest exposed groups--to analyze all cancer sites for which there were at least 15 exposed cases and 4 cases per lifetime exposure-days category. Specifically, we examined all cancers combined; cancers of the prostate, lung, and colon; melanoma melanoma: see skin cancer. melanoma Dark-coloured malignant tumour of skin cells that produce the protective skin-darkening pigment melanin. skin cancer; leukemia; and lymphohematopoietic cancer consisting of Hodgkin lymphoma, NHL, leukemia, and multiple myeloma multiple myeloma A malignant proliferation of abnormal plasma cells that populate the marrow-containing bones of the body. The affected plasma cells produce myeloma protein, a monoclonal antibody that replaces normal antibodies in the blood, thereby increasing susceptibility . Statistical analyses were conducted in AHS data release 0412.01 using Stata version 8 (StataCorp 2003). We used Poisson regression to calculate rate ratios (RRs) and 95% CIs while adjusting for multiple covariates. Covariates included category of age at enrollment (< 40, 40-49, 50-59, [greater than or equal to] 60 years of age), state of residence, pack-years of smoking categorized at the median (0, [less than or equal to] 12, > 12), and use of the four most correlated pesticides [trichlorofon, carbofuran, imazethapyr, and S-ethyl dipropylthiocarbamate (EPTC EPTC S-ethyldipropylthiocarbamate; a thiocarbamate herbicide. )]. Pearson correlation coefficients Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: ranged between 0.43 and 0.50. Use of each correlated pesticide was classified as never, low, and high, with the median lifetime exposure-days categorizing low and high usage. As an alternative strategy to account for use of other pesticides, we also replaced use of the most correlated pesticides with lifetime exposure-days to all pesticides. Further adjustment for education, sex, alcohol consumption in the previous 12 months, applicator type, cancer history in first-degree relatives, and enrollment year did not affect point estimates by > 10%. We performed linear trend tests to assess the overall dose-response trend by entering exposure categories ordinally in the models after assigning them median exposure value in that category. All statistical tests were two-sided. Results Selected characteristics of the study population are displayed in Table 1 according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. lifetime exposure-days category. In this table, "lowest exposed" refers to those in the lowest exposure tertile (> 0-20 lifetime exposure-days), whereas "other exposed" refers to those in the middle and highest tertiles (> 20 lifetime exposure-days). Overall, two-thirds of the study participants were from Iowa. More than two-thirds of the cohort reported corn farming. Study subjects were also predominantly white and male. Just over half reported being never smokers. Close to 55% reported that the highest level of schooling attained was no more than a high school diploma A high school diploma is a diploma awarded for the completion of high school. In the United States and Canada, it is considered the minimum education required for government jobs and higher education. An equivalent is the GED. . Approximately 40% reported a history of cancer in first-degree relatives. The unexposed group was generally younger, less likely to use alcohol, and slightly less likely to report a family history of cancer, used fewer pesticides in general, and planted fewer acres than either exposed group. Both Iowa participants and corn farmers were over-represented in the exposed categories. Based on these differences between the unexposed group and either exposed group, the lowest exposed group may represent the exposed group more closely. With the intensity-weighted metric, risk estimates for all cancers combined were not different from the null, regardless of the reference group used (Table 2). Colon cancer colon cancer, cancer of any part of the colon (often called the large intestine). Colon cancer is the second most common cancer diagnosed in the United States. risk estimates were elevated, but only when using the unexposed as the reference, and the relationship was not monotonic monotonic - In domain theory, a function f : D -> C is monotonic (or monotone) if for all x,y in D, x <= y => f(x) <= f(y). ("<=" is written in LaTeX as \sqsubseteq). . Leukemia risk estimates were elevated regardless of the reference group used. When the unexposed group was the reference, the RR was 2.67 (95% CI, 1.06-6.70) in the highest exposure category, and the test for linear trend was significant ([p.sub.trend] = 0.04). When the lowest exposed group was the reference, the corresponding RR was 2.03 (95% CI, 0.58-7.05). The linear trend test was not significant. Fonofos intensity-weighted exposure-days were not related to the risk of any other examined cancer. Results were similar using the lifetime exposure-days metric (not shown). For example, using the unexposed group as the reference, leukemia RRs increased monotonically to 2.24 (95% CI, 0.94-5.34) in the highest tertile ([p.sub.trend] = 0.07). When the lowest exposed tertile was used as the reference, the risk estimates increased monotonically with increasing exposure category to 2.18 (95% CI, 0.57-8.40) in the highest tertile. The test for linear trend was not significant. To account for the effect of misclassification due to the inclusion of exposure that occurred too recently to affect cancer risk, we repeated the analyses excluding 39 cancer cases and 1,389 cancer-free subjects who either reported first using fonofos during the 1990s or did not provide this information. The results were similar to those presented here (not shown). The results were also similar after repeating the analyses among Iowa participants only (not shown). Additionally, to control for pesticide use in general, we repeated the analyses adjusting for lifetime exposure-days to all pesticides instead of the most correlated pesticides, and the results did not differ from those presented here (not shown). To evaluate the effect of missing information, we repeated the analyses while allowing subjects with missing information on covariates to influence the outcome by assigning them an unspecified category. Once again, the results were largely the same (not shown). Finally, the results were similar when we separately examined fonofos days of use and years of use after categorizing each into none, low, and high categories for exposure, using the median to distinguish between low and high (not shown). We further investigated leukemia by separately examining chronic lymphocytic lymphocytic pertaining to, characterized by or of the nature of lymphocytes. See also lymphocytic-plasmacytic. lymphocytic choriomeningitis (LCM) (eight exposed cases), chronic myelogenous myelogenous /my·elog·e·nous/ (mi?e-loj´e-nus) produced in bone marrow. my·e·log·e·nous adj. Produced by or originating in the bone marrow. (two exposed cases), acute myelogenous (five exposed cases), and all other leukemias (three exposed cases) (not shown). Acute lymphocytic leukemia acute lymphocytic leukemia n. See acute lymphoblastic leukemia. acute lymphocytic leukemia Acute lymphoblastic leukemia, ALL A malignant lymphoproliferative process that commonly affects children and young adults could not be evaluated (no exposed cases). Although the CIs were wide and the point estimates were not significant, relative to the unexposed, the age-adjusted risk estimates in low- and high-exposure categories were elevated for all examined subtypes. In the high-exposure category, point estimates ranged from 1.75 for acute myelogenous to 3.65 for chronic myelogenous leukemia Chronic myelogenous leukemia (CML) Also called chronic myelocytic leukemia, malignant disorder that involves abnormal accumulation of white cells in the marrow and bloodstream. Mentioned in: Bone Marrow Transplantation . We also adjusted leukemia risk estimates using data on use of gasoline, solvents, and paint, which were collected among private applicators using the take-home questionnaire (not shown). Although the subset of otherwise eligible applicators who provided the aforementioned information was small (eight exposed cases), adjusting for these exposures did not weaken the leukemia risk estimates. Finally, controlling for animal exposures using information on the number of livestock (other than poultry) or whether applicators butchered animals, provided veterinary services to livestock, or worked in swine swine, name for any of the cloven-hoofed mammals of the family Suidae, native to the Old World. A swine has a rather long, mobile snout, a heavy, relatively short-legged body, a thick, bristly hide, and a small tail. or poultry containing areas, did not affect risk estimates (not shown). Table 3 shows prostate cancer risk relative to the unexposed using both metrics and stratified stratified /strat·i·fied/ (strat´i-fid) formed or arranged in layers. strat·i·fied adj. Arranged in the form of layers or strata. by family history of prostate cancer in first-degree relatives. We generated uniform exposure categories based on the exposure distribution among prostate cancer cases. In the group with no prostate cancer family history, risk was not associated with exposure regardless of the metric. In those with a family history of prostate cancer, the risk estimates increased, and significant linear trends were observed using either metric. Using the lifetime exposure-days metric, we observed a significant dose-response relationship The Dose-response relationship describes the change in effect on an organism caused by differing levels of exposure (or doses) to a stressor (usually a chemical). This may apply to individuals (eg: a small amount has no observable effect, a large amount is fatal), or to populations ([p.sub.trend] = 0.02), which resulted in a RR of 1.77 (95% CI, 1.03-3.05) in the highest exposure category. The interaction term, defined as the cross-product of family history of cancer and category of lifetime exposure-days (treated as a continuous variable), was significant (RR = 1.28; 95% CI, 1.07-1.54). With the intensity-weighted exposure-days metric, risk in the highest category was 1.83 (95% CI, 1.12-3.00). The test for linear trend was significant ([p.sub.trend] = < 0.01), as was the interaction RR of 1.27 (95% CI, 1.07-1.51). When the analysis in Table 3 was repeated using the lowest exposed group as the reference, the results were similar but less pronounced due to decreased statistical power (not shown). Risk was related to fonofos use only in those with a family history of prostate cancer. Point estimates increased monotonically with lifetime exposure-days to 1.24 (95% CI, 0.61-2.51) in the highest category. The interaction RR was 1.25 (95% CI, 0.83-1.89). Point estimates generally increased with intensity-weighted exposure-days to 1.68 (95% CI, 0.83-3.39) in the highest category. The interaction RR was 1.27 (95% CI, 0.85-1.89). Linear trend tests were not significant using either metric. When the risk of the other examined cancers (all cancers combined, melanoma, leukemia, lymphohematopoietic cancers, lung cancer, and colon cancer) was similarly stratified, no discrepancies were observed comparing those with and without a family history of the specific cancer (not shown). When we did further analyses to disentangle the effects of prostate cancer family history and fonofos exposure, we observed that the age-adjusted main effect for ever compared with never fonofos exposure was 0.97 (95% CI, 0.80-1.17), whereas for family history of prostate cancer, it was 1.67 (95% CI, 1.35-2.07). The observed joint effect of the two exposures was 2.63 (95% CI, 1.96-3.53). Discussion In this study we evaluated cumulative lifetime fonofos exposure until enrollment as a risk factor for incident cancer occurring between the end of enrollment through 2002. Almost 40% of exposed applicators first used fonofos before 1980. Thus, although the period of cancer incidence follow-up is 7.5 years on average, the actual time from first use to the end of the follow-up period is longer. We did not observe an association between fonofos exposure and the incidence of all cancers combined. We did not have enough cases to evaluate NHL. There was, however, evidence of an association between fonofos and leukemia. There was also an observed association between fonofos and prostate cancer among those with a family history of prostate cancer. Organophosphates have been associated with leukemia and other immunologically related cancers in the epidemiologic literature (Brown et al. 1990; Cantor et al. 1992; Clavel et al. 1996; De Roos et al. 2003; Lee et al. 2004; Waddell et al. 2001; Zahm et al. 1993). The leukemogenic leu·ke·mo·gen·ic adj. 1. Of or relating to leukemogenesis. 2. Of, relating to, or characterized by a leukemogen. leukemogenic adjective effects of organophosphates may be related to immune function Immune function The state in which the body recognizes foreign materials and is able to neutralize them before they can do any harm. Mentioned in: Herbalism, Traditional Chinese, Stress Reduction perturbation perturbation (pŭr'tərbā`shən), in astronomy and physics, small force or other influence that modifies the otherwise simple motion of some object. The term is also used for the effect produced by the perturbation, e.g. . Organophosphates irreversibly inhibit acetylcholine acetylcholine (əsēt'əlkō`lēn), a small organic molecule liberated at nerve endings as a neurotransmitter. It is particularly important in the stimulation of muscle tissue. esterase esterase /es·ter·ase/ (es´ter-as) any enzyme which catalyzes the hydrolysis of an ester into its alcohol and acid. es·ter·ase n. Any of various enzymes that catalyze the hydrolysis of an ester. , an enzyme that breaks down the neurotransmitter neurotransmitter, chemical that transmits information across the junction (synapse) that separates one nerve cell (neuron) from another nerve cell or a muscle. Neurotransmitters are stored in the nerve cell's bulbous end (axon). acetylcholine into inactive metabolites Metabolites Substances produced by metabolism or by a metabolic process. Mentioned in: Interactions . Lymphocytes Lymphocytes Small white blood cells that bear the major responsibility for carrying out the activities of the immune system; they number about 1 trillion. contain essential components of a cholinergic cholinergic /cho·lin·er·gic/ (ko?lin-er´jik) 1. parasympathomimetic; stimulated, activated, or transmitted by choline (acetylcholine); said of the sympathetic and parasympathetic nerve fibers that liberate acetylcholine at a system, and studies suggest that prolonged acetylcholine esterase receptor stimulation, which could result from irreversible acetylcholine esterase inhibition, can alter lymphocytic activity (Kawashima and Fujii 2003). Prostate cancer risk was not related to fonofos exposure overall. We did, however, find increased prostate cancer risk associated with fonofos use for those with a family history of prostate cancer. This result was previously reported in a case-control analysis of prostate cancer in the AHS, albeit with 87 fewer cases and 3.2 years shorter follow-up (Alavanja et al. 2003). Here we extend this result by also reporting a dose response with lifetime exposure-days and intensity-weighted exposure-days. The statistical interaction that we observed here between fonofos exposure and family history of prostate cancer could have several explanations. One explanation may be that positive prostate cancer family history may serve as a surrogate for an inherited genetic trait, such as a polymorphism polymorphism, of minerals, property of crystallizing in two or more distinct forms. Calcium carbonate is dimorphous (two forms), crystallizing as calcite or aragonite. Titanium dioxide is trimorphous; its three forms are brookite, anatase (or octahedrite), and rutile. in a metabolic enzyme. There are known polymorphic polymorphic - polymorphism variants of several cytochrome cytochrome (sī`təkrōm'), protein containing heme (see coenzyme) that participates in the phase of biochemical respiration called oxidative phosphorylation. P450 isoforms that vary considerably in their ratio of chlorpyrifos bioactivation to detoxification Detoxification Definition Detoxification is one of the more widely used treatments and concepts in alternative medicine. It is based on the principle that illnesses can be caused by the accumulation of toxic substances (toxins) in the body. (Dai et al. 2001; Tang et al. 2001). As organothiophosphates, fonofos and chlorpyrifos are similar in that they must be metabolized to their bioactive bi·o·ac·tive adj. Of or relating to a substance that has an effect on living tissue. bioactive having an effect on or eliciting a response from living tissue. neurotoxic neurotoxic pertaining to or emanating from a neurotoxin. neurotoxic state a case of poisoning by a neurotoxin. neurotoxic adjective oxon forms (Maroni et al. 2000), and if fonofos shares some of the same metabolic enzymes as chlorpyrifos, such a polymorphism may account for the interaction. Alternatively, fonofos, phorate phorate an organophosphorus compound used as an insecticide and capable of causing poisoning. , and chlorpyrifos significantly inhibit testosterone testosterone (tĕstŏs`tərōn), principal androgen, or male sex hormone. One of the group of compounds known as anabolic steroids, testosterone is secreted by the testes (see testis) but is also synthesized in small quantities in the metabolism in human liver microsomes, most likely as a result of their noncompetitive inhibition non·com·pet·i·tive inhibition n. Enzyme inhibition in which the inhibiting compound does not compete with the natural substrate for the active site on the enzyme but inhibits reaction by combining with the enzyme-substrate complex after the complex is of cytochrome P450 3A4 testosterone metabolism (Usmani et al. 2003). As with any study, some exposure misclassification is likely (Acquavella et al. 2006), but because exposure information was collected prospectively we have no reason to believe that it occurred differentially between cancer cases and cancer-free subjects. In addition, some of the exposure considered here may have occurred too recently to contribute to cancer occurrence. However, we repeated several analyses restricted to those whose year of first use occurred before 1990, and the results did not appreciably differ from the unrestricted analyses. Pesticide applicators come into contact with multiple farm chemicals, including pesticides, and other agents. A previous AHS examination determined that a relationship between pesticide exposure and disease is not likely confounded by farming or nonfarming activities (Coble co·ble n. 1. Nautical A small flatbottom fishing boat with a lugsail on a raking mast. 2. Scots A kind of flatbottom rowboat. et al. 2002). In this study, we attempted to control for exposures to other pesticides using two approaches. First, we adjusted the risk estimates for use of the four pesticides that were most correlated with fonofos. Alternatively, to control for the effects of exposure to all pesticides, we adjusted for lifetime exposure-days to all pesticides. The measured differences between exposed and unexposed applicators in age and family history of cancer would normally raise concerns that these groups also differed with respect to other unmeasured cancer risk factors, but the overall conclusions did not differ when the unexposed and lowest exposed groups were used as the reference. The main strengths of this study include its large prospective design, complete recruitment and follow-up, and the use of semi-quantitative exposure measures that improve on the qualitative measures used in previous studies of pesticide exposure. In addition, our results are internally consistent, as further adjustment and subgroup sub·group n. 1. A distinct group within a group; a subdivision of a group. 2. A subordinate group. 3. Mathematics A group that is a subset of a group. tr.v. analyses did not result in different conclusions. This is, to our knowledge, the largest examination of any group occupationally exposed to fonofos. Our strategy for evaluating the carcinogenic carcinogenic having a capacity for carcinogenesis. potential of pesticides in the cohort is to examine each pesticide with respect to cancer outcomes, to examine each cancer outcome with respect to pesticide exposures, and to examine the consistency of the relationship across time, state, and license type. Our conclusions are limited because of the small number of exposed cases, especially for leukemia. As follow-up of the cohort continues, more cancer cases will develop as the cohort ages, at which point the relationship between cancer and exposure to fonofos and other pesticides needs to be confirmed. REFERENCES Acquavella JF, Alexander BH, Mandel JS, Burns CJ, Gustin C. 2006. Exposure misclassification in studies of agricultural pesticides: insights from biomonitoring. Epidemiology 17:69-74. AHS (Agricultural Health Study). 2006. AHS Questionnaires. Available: http://www.aghealth.org/questionnaires.html [accessed 12 June 2006]. Alavanja MC, Dosemeci M, Samanic C, Lubin J, Lynch CF, Knott C, et al. 2004. Pesticides and lung cancer risk in the agricultural health study cohort. Am J Epidemiol 160:876-885. Alavanja MC, Samanic C, Dosemeci M, Lubin J, Tarone R, Lynch CF, et al. 2003. Use of agricultural pesticides and prostate cancer risk in the Agricultural Health Study cohort. Am J Epidemiol 157:800-814. Alavanja MC, Sandler DP, McMaster SB, Zahm SH, McDonnell CJ, Lynch CF, et al. 1996. The Agricultural Health Study. Environ Health Perspect 104:362-369. Brown LM, Blair A, Gibson R, Everett GD, Cantor KP, Schuman LM, et al. 1990. Pesticide exposures and other agricultural risk factors for leukemia among men in Iowa and Minnesota. Cancer Res 50:6585-6591. California Department of Pesticide Regulation. 1997. Summary of Toxicology toxicology, study of poisons, or toxins, from the standpoint of detection, isolation, identification, and determination of their effects on the human body. Toxicology may be considered the branch of pharmacology devoted to the study of the poisonous effects of drugs. Data: Fonofos. Sacramento, CA: Department of Pesticide Regulation, California Environmental Protection Agency The California Environmental Protection Agency (Cal/EPA) was created in 1991 by Governor Pete Wilson, through an executive order.[1] The agency combined six board, departments, and offices into one cabinet-level office:[2] Cantor KP, Blair A, Everett G, Gibson R, Burmeister LF, Brown LM, et al. 1992. Pesticides and other agricultural risk factors for non-Hodgkin's lymphoma non-Hodg·kin's lymphoma n. Any of various malignant lymphomas characterized by the absence of Reed-Sternberg cells. Non-Hodgkin's lymphoma among men in Iowa and Minnesota. Cancer Res 52:2447-2455. Clavel J, Hemon D, Mandereau L, Delemotte B, Severin F, Flandrin G. 1996. Farming, pesticide use and hairy-cell leukemia. Scand J Work Environ Health 22:285-293. Coble J, Hoppin JA, Engel L, Elci OC, Dosemeci M, Lynch CF, et al. 2002. Prevalence of exposure to solvents, metals, grain dust, and other hazards among farmers in the Agricultural Health Study. J Expo Anal Environ Epidemiol 12:418-426. Dai D, Tang J, Rose R, Hodgson E, Bienstock RJ, Mohrenweiser HW, et al. 2001. Identification of variants of CYP CYP In currencies, this is the abbreviation for the Cyprus Pound. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. 3A4 and characterization of their abilities to metabolize me·tab·o·lize v. 1. To subject to metabolism. 2. To produce by metabolism. 3. To undergo change by metabolism. metabolize to subject to or be transformed by metabolism. testosterone and chlorpyrifos. J Pharmacol Exp Ther 299:825-831. De Roos AJ, Zahm SH, Cantor KP, Weisenburger DD, Holmes FF, Burmeister LF, et al. 2003. Integrative assessment of multiple pesticides as risk factors for non-Hodgkin's lymphoma among men. Occup Environ Med 60:E11. Dosemeci M, Alavanja MC, Rowland AS, Mage D, Zahm SH, Rothman N, et al. 2002. A quantitative approach for estimating exposure to pesticides in the Agricultural Health Study. Ann Occup Hyg 46:245-260. Gentile JM, Gentile GJ, Bultman J, Sechriest R, Wagner ED, Plewa MJ. 1982. An evaluation of the genotoxic genotoxic /ge·no·tox·ic/ (je´no-tok?sik) damaging to DNA: pertaining to agents known to damage DNA, thereby causing mutations, which can result in cancer. ge·no·tox·ic adj. properties of insecticides following plant and animal activation. Mutat Res 101:19-29. Kawashima K, Fujii T. 2003. The lymphocytic cholinergic system and its contribution to the regulation of immune activity. Life Sci 74:675-696. Lee WJ, Cantor KP, Berzofsky JA, Zahm SH, Blair A. 2004. Non-Hodgkin's lymphoma among asthmatics exposed to pesticides. Int J Cancer 111:298-302. Maroni M, Colosio C, Ferioli A, Fait A. 2000. Biological monitoring of pesticide exposure: a review. Introduction. Toxicology 143:1-118. Simmons VF, Poole DC, Riccio ES, Robinson DE, Mitchell AD, Waters MD. 1979. In vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. mutagenicity and genotoxicity assays of 38 pesticides. Environ Mutagen mutagen: see mutation. mutagen Any agent capable of altering a cell's genetic makeup by changing the structure of the hereditary material, DNA. Many forms of electromagnetic radiation (e.g. 1:142-143. StataCorp. 2003. Stata Reference Manual: Release 8. College Station, TX: Stata Press. Tang J, Cao Y, Rose RL, Brimfield AA, Dai D, Goldstein JA, et al. 2001. Metabolism of chlorpyrifos by human cytochrome P450 isoforms and human, mouse, and rat liver microsomes. Drug Metab Dispos 29:1201-1204. U.S. EPA. 1999. Fonofos Registration Eligibility Document Facts. Washington, DC:US Environmental Protection Agency. Available: http://www.epa.gov/oppsrrd1/REDs/factsheets/0105fact.pdf [accessed 27 February 2006]. Usmani KA, Rose RL, Hodgson E. 2003. Inhibition and activation of the human liver microsomal microsomal pertaining to or emanating from microsome. and human cytochrome P450 3A4 metabolism of testosterone by deployment-related chemicals. Drug Metab Dispos 31:384-391. Waddell BL, Zahm SH, Baris D, Weisenburger DD, Holmes F, Burmeister LF, et al. 2001. Agricultural use of organophosphate pesticides and the risk of non-Hodgkin's lymphoma among male farmers (United States). Cancer Causes Control 12:509-517. Zahm SH, Weisenburger DD, Saal RC, Vaught JB, Babbitt PA, Blair A. 1993. The role of agricultural pesticide use in the development of non-Hodgkin's lymphoma in women. Arch Environ Health 48:353-358. Rajeev Mahajan Mahajan is an Indian surname, found among the Vaishya castes (business communities). In India surname Mahajan is used by two communities: - one residing in North of India(mainly on the Amritsar to Jammu belt) and another belonging to North Maharashtra. , (1) Aaron Blair, (1) Charles F. Lynch Charles F. Lynch has been the Principal Investigator of the Iowa Cancer Registry, a statewide cancer surveillance program that is part of the National Cancer Institute's Surveillance, Epidemiology, and End Results (SEER) Program. He received his M.D. degree in 1979 and his Ph.D. , (2) Paul Schroeder, (3) Jane A. Hoppin, (4) Dale P. Sandler, (4) and Michael C.R. Alavanja (1) (1) Occupational and Environmental Epidemiology Branch, Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institutes of Health, Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979 Health and Human Services, HHS , Rockville, Maryland Rockville is the county seat of Montgomery County, Maryland, United States. According to the 2006 census update, the city had a total population of 59,114, making it the second largest city in Maryland. , USA; (2) Department of Epidemiology, University of Iowa Not to be confused with Iowa State University. The first faculty offered instruction at the University in March 1855 to students in the Old Mechanics Building, situated where Seashore Hall is now. In September 1855, the student body numbered 124, of which, 41 were women. , Iowa City, Iowa Iowa City is a city in Johnson County, Iowa, United States. It is the principal city of the Iowa City, Iowa Metropolitan Statistical Area which encompasses Johnson and Washington counties. , USA; (3) Westat, Rockville, Maryland, USA; (4) Epidemiology Branch, National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. , National Institutes of Health, Department of Health and Human Services, Research Triangle Park Research Triangle Park, research, business, medical, and educational complex situated in central North Carolina. It has an area of 6,900 acres (2,795 hectares) and is 8 × 2 mi (13 × 3 km) in size. Named for the triangle formed by Duke Univ. , North Carolina, USA Address correspondence to M.C.R. Alavanja, 6120 Executive Blvd., EPS (Encapsulated PostScript) A PostScript file format used to transfer a graphic image between applications and platforms. EPS files contain PostScript code as well as an optional preview image in TIFF, WMF, PICT or EPSI, the latter being an ASCII-only format. 8000, MSC (1) (MSC.Software Corporation, Santa Ana, CA, www.mscsoftware.com) Founded in 1963 by Richard H. MacNeal and Robert G. Schwendler, MSC is the world's largest provider of mechanical computer aided engineering (MCAE) strategies, simulation software and services. 7240, Occupational Epidemiology Branch, Division of Cancer Epidemiology and Genetics, National Cancer Institute, Rockville, MD 20852 USA. Telephone: (301) 435-4720. Fax: (301) 402-1819. E-mail: Alavanjm@mail.nih.gov We acknowledge the assistance and expertise of E. Hodgson and R. Rose. This research was supported by the Intramural intramural /in·tra·mu·ral/ (-mu´r'l) within the wall of an organ. in·tra·mu·ral adj. Occurring or situated within the walls of a cavity or organ. Research Program of the National Cancer Institute and the National Institute of Environmental Health Sciences, National Institutes of Health. The authors declare they have no competing financial interests. Received 28 April 2006; accepted 17 August 2006.
Table 1. Characteristics of applicators by fonofos exposure in the AHS
(1993-1997) [no. (%)].
Unexposed Lowest exposed
Characteristic (n = 36,313) (n = 3,496)
Age (years)
< 40 13,194 (36.3) 963 (27.6)
40-49 10,163 (28.0) 1,178 (33.7)
50-59 6,963 (19.2) 789 (22.6)
[greater than or equal to] 60 5,993 (16.5) 566 (16.2)
Sex
Male 35,151 (96.8) 3,475 (99.4)
Female 1,162 (3.2) 21 (0.6)
State of residence
Iowa 23,246 (64.0) 3,191 (91.3)
North Carolina 13,067 (36.0) 305 (8.7)
Applicator type
Commercial 3,700 (10.2) 138 (4.0)
Private 32,613 (89.8) 3,358 (96.1)
Smoking history
Never 19,957 (55.0) 2,033 (58.2)
Light 8,309 (22.9) 857 (24.5)
([less than or equal to] 12
pack-years)
High 8,047 (22.2) 606 (17.3)
([greater than or equal to] 12
pack-years)
Education (a)
[less than or equal to] High 19,270 (54.3) 1,858 (53.9)
school
> High school 16,214 (45.7) 1,591 (46.1)
Family history of cancer (a)
No 21,353 (60.0) 1,919 (55.4)
Yes 14,228 (40.0) 1,545 (44.6)
Alcohol (a, b)
No 11,666 (32.4) 781 (22.4)
Yes 24,373 (67.6) 2,700 (77.6)
Corn farming
No 11,006 (30.3) 279 (8.0)
Yes 25,307 (69.7) 3,217 (92.0)
Use of correlated pesticides
Trichorfon 264 (0.7) 26 (0.7)
Carbofuran 7,086 (19.5) 1,498 (42.9)
Imazethapyr 13,926 (38.4) 2,012 (57.6)
EPTC 6,055 (16.7) 1,091 (31.2)
Acres planted previous year (a)
None 1,965 (6.1) 47 (1.4)
< 199 10,363 (32.1) 787 (23.2)
200-499 8,394 (26.0) 1,213 (35.8)
500-999 6,873 (21.3) 854 (25.2)
[greater than or equal to] 1,000 4,728 (14.6) 489 (14.4)
No. of livestock (other than
poultry) on farm (a)
None/did not farm 11,630 (36.3) 842 (24.9)
< 50 4,583 (14.3) 309 (9.2)
50-499 8,328 (26.0) 1,179 (34.9)
> 500 7,472 (23.3) 1,047 (31.0)
No. of pesticides used 11.7 17.0
(mean [+ or -] SD) [+ or -] 6.7 [+ or -] 6.7
Other exposed
Characteristic (n = 5,563)
Age (years)
< 40 1,563 (28.1)
40-49 1,806 (32.5)
50-59 1,338 (24.1)
[greater than or equal to] 60 856 (15.4)
Sex
Male 5,525 (99.3)
Female 38 (0.7)
State of residence
Iowa 5,073 (91.2)
North Carolina 490 (8.8)
Applicator type
Commercial 408 (7.3)
Private 5,155 (92.7)
Smoking history
Never 3,232 (58.1)
Light 1,300 (23.4)
([less than or equal to] 12
pack-years)
High 1,031 (18.5)
([greater than or equal to] 12
pack-years)
Education (a)
[less than or equal to] High 3,078 (56.3)
school
> High school 2,387 (43.7)
Family history of cancer (a)
No 3,064 (55.7)
Yes 2,442 (44.4)
Alcohol (a, b)
No 1,185 (21.4)
Yes 4,353 (78.6)
Corn farming
No 572 (10.3)
Yes 4,991 (89.7)
Use of correlated pesticides
Trichorfon 99 (1.8)
Carbofuran 2,595 (46.6)
Imazethapyr 3,177 (57.1)
EPTC 1,962 (35.3)
Acres planted previous year (a)
None 106 (2.0)
< 199 814 (15.4)
200-499 1,800 (34.0)
500-999 1,552 (29.3)
[greater than or equal to] 1,000 1,019 (19.3)
No. of livestock (other than
poultry) on farm (a)
None/did not farm 1,137 (21.5)
< 50 422 (8.0)
50-499 1,683 (31.9)
> 500 2,036 (38.6)
No. of pesticides used 18.4 [+ or -] 7.2
(mean [+ or -] SD)
(a) Numbers of applicators do not sum to total because of missing
information. (b)Based on reported alcohol consumption in the previous 12
months.
Table 2. RRs (a) (95% CIs) for selected cancers by fonofos
intensity-weighted exposure-days among AHS (1993-1997) applicators,
using unexposed and lowest-exposed applicators as the reference groups.
Intensity-weighted
exposure-days Cases (n) Unexposed reference
All cancer
0 1,514 1.00 (Referent)
> 0-79 136 1.12 (0.93-1.35)
80-291 128 1.06 (0.88-1.28)
[greater than or equal to]292 128 1.09 (0.90-1.32)
[p.sub.trend] 0.40
Prostate cancer
0 588 1.00 (Referent)
> 0-79 54 0.99 (0.74-1.32)
80-291 58 1.10 (0.83-1.46)
[greater than or equal to]292 55 1.14 (0.86-1.53)
[p.sub.trend] 0.32
Lung cancer
0 142 1.00 (Referent)
> 0-79 10 1.54 (0.78-3.02)
80-291 5 0.64 (0.26-1.60)
[greater than or equal to]292 8 0.93 (0.44-1.96)
[p.sub.trend] 0.70
Colon cancer
0 112 1.00 (Referent)
> 0-79 15 1.79 (1.01-3.18)
80-291 8 0.95 (0.45-2.00)
[greater than or equal to]292 14 1.66 (0.92-3.03)
[p.sub.trend] 0.14
Lymphohematopoietic cancer
0 151 1.00 (Referent)
> 0-79 10 0.81 (0.42-1.56)
80-291 16 1.30 (0.76-2.22)
[greater than or equal to]292 14 1.14 (0.64-2.02)
[p.sub.trend] 0.56
Leukemia
0 47 1.00 (Referent)
> 0-130.2 6 1.28 (0.52-3.10)
130.3-609 4 0.98 (0.34-2.82)
[greater than or equal to]609 6 2.67 (1.06-6.70)
[p.sub.trend] 0.04
Melanoma skin cancer
0 61 1.00 (Referent)
> 0-79 8 1.52 (0.70-3.29)
80-291 3 0.60 (0.18-1.96)
[greater than or equal to]292 6 1.17 (0.48-2.83)
[p.sub.trend] 0.86
Intensity-weighted
exposure-days Lowest exposed reference
All cancer
0
> 0-79 1.00 (Referent)
80-291 0.93 (0.73-1.19)
[greater than or equal to]292 0.93 (0.72-1.21)
[p.sub.trend] 0.72
Prostate cancer
0
> 0-79 1.00 (Referent)
80-291 1.14 (0.78-1.65)
[greater than or equal to]292 1.21 (0.81-1.79)
[p.sub.trend] 0.43
Lung cancer
0
> 0-79 1.00 (Referent)
80-291 0.40 (0.14-1.19)
[greater than or equal to]292 0.66 (0.24-1.79)
[p.sub.trend] 0.75
Colon cancer
0
> 0-79 1.00 (Referent)
80-291 0.53 (0.22-1.26)
[greater than or equal to]292 0.91 (0.42-2.01)
[p.sub.trend] 0.78
Lymphohematopoietic cancer
0
> 0-79 1.00 (Referent)
80-291 1.59 (0.72-3.52)
[greater than or equal to]292 1.43 (0.61-3.36)
[p.sub.trend] 0.65
Leukemia
0
> 0-130.2 1.00 (Referent)
130.3-609 0.73 (0.20-2.62)
[greater than or equal to]609 2.03 (0.58-7.05)
[p.sub.trend] 0.14
Melanoma skin cancer
0
> 0-79 1.00 (Referent)
80-291 0.40 (0.11-1.51)
[greater than or equal to]292 0.88 (0.28-2.75)
[p.sub.trend] 0.86
(a) Adjusted for age (< 40, 40-49, 50-59, [greater than or equal to] 60
years), state of residence, pack-years of smoking
(0, [less than or equal to] 12, > 12), and use of the four most
correlated pesticides (trichlorofon, carbofuran, imazethapyr, and EPTC).
Table 3. Prostate cancer RRs (95% CIs) among AHS (1993-1997)
participants by family history of prostate cancer using fonofos lifetime
and intensity-weighted exposure-days metrics.
No family history
Category Cases (n) RR (a) (95% CI)
Lifetime exposure-days (c)
0 534 1.00 (Referent)
> 0-20 58 1.08 (0.82-1.41)
> 20-56 51 0.93 (0.70-1.25)
> 56 30 0.86 (0.60-1.24)
[p.sub.trend] 0.37
Intensity-weighted exposure-days
0 534 1.00 (Referent)
> 0-96 50 0.93 (0.69-1.24)
> 97-314 45 1.03 (0.76-1.39)
> 315 42 0.96 (0.70-1.31)
[p.sub.trend] 0.81
Family history Interaction
Category Cases (n) RR (a) (95% CI) RR (b) (95% CI)
Lifetime exposure-days (c)
0 100 1.00 (Referent)
> 0-20 16 1.42 (0.84-2.41)
> 20-56 18 1.57 (0.95-2.60) 1.28 (1.07-1.54)
> 56 15 1.77 (1.03-3.05)
[p.sub.trend] 0.02
Intensity-weighted exposure-days
0 100 1.00 (Referent)
> 0-96 13 1.09 (0.61-1.95)
> 97-314 17 1.94 (1.16-3.25) 1.27 (1.07-1.51)
> 315 19 1.83 (1.12-3.00)
[p.sub.trend] <0.01
(a) Adjusted for age (< 40, 40-49, 50-59, [greater than or equal to]
60 years). (b) Adjusted for age (< 40, 40-49, 50-59,
[greater than or equal to] 60 years) and family history of prostate
cancer. (c) For lifetime exposure-days, the categories generated based
on the exposure distribution among prostate cancer cases happened to be
the same as the categories generated from the exposure distribution of
all cancer cases.
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