Neurologic symptoms in licensed private pesticide applicators in the Agricultural Health Study.Exposure to high levels of many pesticides has both acute and long-term neurologic neurologic /neu·ro·log·ic/ (-loj´ik) pertaining to neurology or to the nervous system. Neurologic Having to do with the nervous system. consequences, but little is known about the neurotoxicity neurotoxicity /neu·ro·tox·ic·i·ty/ (noor?o-tok-sis´it-e) the quality of exerting a destructive or poisonous effect upon nerve tissue. of chronic exposure to moderate levels of pesticides. We analyzed cross-sectional data Cross-sectional data in statistics and econometrics is a type of one-dimensional data set. Cross-sectional data refers to data collected by observing many subjects (such as individuals, firms or countries/regions) at the same point of time, or without regard to differences in time. from 18,782 white male licensed private pesticide pesticide, biological, physical, or chemical agent used to kill plants or animals that are harmful to people; in practice, the term pesticide is often applied only to chemical agents. applicators enrolled in the Agricultural Health Study in 1993-1997. Applicators provided information on lifetime pesticide use and 23 neurologic symptoms typically associated with pesticide intoxication intoxication, condition of body tissue affected by a poisonous substance. Poisonous materials, or toxins, are to be found in heavy metals such as lead and mercury, in drugs, in chemicals such as alcohol and carbon tetrachloride, in gases such as carbon monoxide, and . An indicator of more symptoms ([greater than or equal to] 10 vs. < 10) during the year before enrollment was associated with cumulative lifetime days of 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. use: odds ratios (95% confidence intervals confidence interval, 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%. ) were 1.64 (1.36-1.97) for 1-50 days, 1.89 (1.58-2.25) for 51-500 days, and 2.50 (2.00-3.13) for > 500 days, compared with never users. A modest association for fumigants [> 50 days, 1.50 (1.24-1.81)] and weaker relationships for herbicides [> 500 days, 1.32 (0.99-1.75)] and fungicides This page aims to list well-known chemical compounds, to stimulate the creation of Wikipedia articles. This list is not necessarily complete or up to date – if you see an article that should be here but isn't (or one that shouldn't be here but is), please update the page [> 50 days, 1.23 (1.00-1.50)] were observed. Pesticide use within the year before enrollment was not associated with symptom count. Only associations with insecticides insecticides, chemical, biological, or other agents used to destroy insect pests; the term commonly refers to chemical agents only. Chemical Insecticides and fumigants persisted when all four pesticide groups were examined simultaneously. Among chemical classes of insecticides, associations were strongest for organophosphates and organochlorines organochlorines see chlorinated hydrocarbons. organochlorines poisoning cause excitement and irritability, tremor, ataxia, weakness, paralysis, convulsions. . Associations with cumulative exposure persisted after excluding individuals who had a history of pesticide poisoning pesticide poisoning, n a toxic condition caused by the ingestion or inhalation of a substance used for the eradication of insects, fungi, and other pests. or had experienced an event involving high personal pesticide exposure. These results suggest that self-reported neurologic symptoms are associated with cumulative exposure to moderate levels of fumigants and 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. and organochlorine or·gan·o·chlo·rine n. Any of various hydrocarbon pesticides, such as DDT, that contain chlorine. insecticides, regardless of recent exposure or history of poisoning The history of poisons[1] stretches over a period from before 4500 BC to the present day. Poisons have been used for many purposes across the span of human existence as weapons, anti-venoms and medicines. . Key words: fumigants, insecticides, neurologic symptoms, organochlorines, organophosphates, pesticide applicators, pesticides. doi:10.1289/ehp.7645 available via http://dx.doi.org/[Online 15 April 2005] ********** Pesticides are used extensively throughout the world. In the 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. , > 18,000 products are licensed for use, and annual use of pesticides for crops, homes, schools, parks, and forests exceeds 2 billion pounds [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. ) 2002]. Neurologic dysfunction dysfunction /dys·func·tion/ (dis-funk´shun) disturbance, impairment, or abnormality of functioning of an organ.dysfunc´tional erectile dysfunction impotence (2). is the best-documented health effect of pesticide exposure. High-level exposure has both acute and long-term neurologic effects, and adverse effects have been reported for most types of pesticides, including organophosphate, carbarnate, organochlorine, and pyrethroid py·re·throid n. Any of several synthetic compounds similar to pyrethrin, used as an insecticide. insecticides, herbicides, fungicides, and fumigants. Organophosphates have been studied in greatest detail. Acute organophosphate poisoning Many organophosphates are potent neurotoxins, functioning by inhibiting the action of acetylcholinesterase (AChE) in nerve cells. They are one of the most common causes of poisoning worldwide, and are frequently intentionally used in suicides in agricultural areas. can involve a wide range of both central and peripheral neurologic symptoms (Ecobichon 1996; Keifer and Mahurin 1997). Effects of organophosphate poisoning may persist long after the acute response is resolved; sequelae sequelae Clinical medicine The consequences of a particular condition or therapeutic intervention include increased neurologic symptoms, deficits in neurobehavioral performance, decreased vibration sensitivity, and impaired nerve conduction nerve conduction n. The transmission of an impulse along a nerve fiber. Nerve conduction The speed and strength of a signal being transmitted by nerve cells. (Kamel and Hoppin 2004). Effects continue up to 10 years after poisoning (Savage et al. 1988), suggesting permanent residual damage. Even less severe poisoning can have long-term consequences (Wesseling et al. 2002). Questions remain concerning the neurologic effects of moderate pesticide exposure. Most studies show effects on cognitive and psychomotor psychomotor /psy·cho·mo·tor/ (si?ko-mo´ter) pertaining to motor effects of cerebral or psychic activity. psy·cho·mo·tor adj. 1. neurobehavioral function in chronically exposed individuals without a history of poisoning, although clinical measures of peripheral nerve function like vibration sensitivity and nerve conduction are not generally affected (Kamel and Hoppin 2004). Increases in both central and peripheral neurologic symptoms are also found in many studies of moderate exposure (Kamel and Hoppin 2004). Increased symptom prevalence may provide early evidence of neurologic dysfunction, before clinically measurable signs are evident. Unresolved issues regarding the relationship of pesticide exposure to symptom prevalence include the relative importance of acute and chronic exposure, of pesticide poisoning or high-exposure events compared with chronic moderate exposure, and of pesticides other than organophosphates. The Agricultural Health Study (AHS AHS Assistant House Surgeon. ) is a large 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 and their spouses (Alavanja et al. 1996, 1999a). Questionnaires completed by applicators at enrollment provided information on neurologic symptoms during the prior year as well as detailed information on lifetime pesticide use and exposure. We used this information for a cross-sectional analysis Cross-sectional analysis Assessment of relationships among a cross-section of firms, countries, or some other variable at one particular time. of the relationship of symptoms to several measures of pesticide exposure. Materials and Methods Population and questionnaires. The AHS cohort was recruited in 1993-1997 (Alavanja et al. 1996, 1999a). In 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. , licenses for restricted-use pesticides must be renewed every 3 years. Individuals applying for new or renewed licenses were invited to enroll in the study. Approximately 52,400 private applicators (mostly farmers) participated, 82% of those eligible. At enrollment, participants completed a self-administered questionnaire that collected information on demographic characteristics, lifestyle, medical history, and pesticide use. A supplemental questionnaire, completed at home by 44% of the enrolled private applicators, collected additional information in these categories as well as information on neurologic symptoms. Applicators who returned the supplemental questionnaire were similar to those who did not in most respects, including prevalence of symptoms and pesticide exposure (Tarone et al. 1997). Together the two questionnaires collected information on frequency and duration of use of 50 specific pesticides as well as on high-pesticide-exposure events, medical visits for pesticide-related illness, and pesticide poisoning. All information on exposures and disease states was taken from these self-reports. Symptom questions were based on an established questionnaire, Q16, previously used to evaluate effects of occupational exposure to neurotoxicants (Lundberg et al. 1997). The questionnaires are available on the AHS website (AHS 2004); the symptom questions are in section 8, Medical History, in the Farmer 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. Questionnaire. The present analysis was restricted to applicators with complete information on symptoms--89% of those who returned the supplemental questionnaire. Applicators with incomplete symptom information (n = 2,603) were slightly older, less well educated, and more likely to live in North Carolina, compared with the analysis group, but the median number of symptoms experienced at least once was the same. Many of the excluded applicators omitted information for only one or two symptoms (n = 1,651, 63% of those excluded). Including them in the analysis by imputing either a positive or negative response for the missing symptoms did not substantively change results. To reduce heterogeneity het·er·o·ge·ne·i·ty n. The quality or state of being heterogeneous. heterogeneity the state of being heterogeneous. , the analysis was further restricted to white men 18-75 years of age, who comprised 92% of those otherwise eligible. Characteristics of the 18,782 applicators included in the analysis are presented in Table 1. The institutional review boards of the National Institutes of Health, the 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 field station), and Battelle (North Carolina field station) approved the AHS. The study was explained to potential participants, who indicated consent by returning questionnaires. Data analysis. Table 2 shows frequencies of 23 symptoms during the year before enrollment, in the categories originally reported. Most of our analyses focused on these symptoms as a group. We created two measures reflecting the number of symptoms experienced at least once in the year before enrollment: a continuous variable, "number of symptoms" [median (interquartile range In descriptive statistics, the interquartile range (IQR), also called the midspread, middle fifty and middle of the #s, is a measure of statistical dispersion, being equal to the difference between the third and first quartiles. ) = 4 (1-8)], and a dichotomous di·chot·o·mous adj. 1. Divided or dividing into two parts or classifications. 2. Characterized by dichotomy. di·chot variable, "many symptoms," that compared the 20% of applicators who experienced [greater than or equal to] 10 symptoms ("cases") with the remaining 80% who experienced < 10 symptoms ("controls"). The distribution of number of symptoms was not greatly affected by omitting the two most common and nonspecific nonspecific /non·spe·cif·ic/ (non?spi-sif´ik) 1. not due to any single known cause. 2. not directed against a particular agent, but rather having a general effect. nonspecific 1. symptoms, headache and fatigue. We also considered the 23 symptoms individually, dichotomizing the frequency of each symptom so that 5-15% of the population was in the positive ("case") category (Table 2). We considered several pesticide exposure measures, listed in Table 3. Applicators reported years of use of any pesticide (in five categories) and days per year (in seven categories). We then calculated lifetime days of use by multiplying duration (quantified as the central value of the reported category for years of use) by frequency (central value of the reported category for days per year) and then categorizing in quartiles. A high-exposure event was one causing "unusually high personal exposure" (Alavanja et al. 1999b). Internal exposure was defined as inhalation inhalation /in·ha·la·tion/ (in?hah-la´shun) 1. the drawing of air or other substances into the lungs.inhala´tional 2. the drawing of an aerosolized drug into the lungs with the breath. 3. or ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. of pesticide. Pesticides were 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 by function or mode of use, as herbicides, insecticides, fungicides, or fumigants (Table 3). Insecticides were further categorized by chemical class. Cumulative lifetime days for pesticide groups were calculated by multiplying duration by frequency of use for each pesticide in the group, summing over all pesticides in the group, and categorizing into three or four levels. We further categorized by whether or not any pesticides in the group were used in the year before enrollment (Table 3). We analyzed the data using linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. for number of symptoms and logistic regression In statistics, logistic regression is a regression model for binomially distributed response/dependent variables. It is useful for modeling the probability of an event occurring as a function of other factors. for the dichotomous outcomes. Analyses were performed in SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. (version 8.2; SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. Inc., Cary, NC) using AHS phase I data (Prerelease pre·re·lease n. Something released before an official or scheduled date. adj. Of or relating to an interval preceding an official or scheduled release: 9/02; AHS 2004). We adjusted for age, state, education, smoking, and alcohol use, with variables categorized as in Table 1. Information on age and state was available for all applicators. For applicators (< 3%) who were missing data on education, cigarette smoking, or alcohol use, we imputed Attributed vicariously. In the legal sense, the term imputed is used to describe an action, fact, or quality, the knowledge of which is charged to an individual based upon the actions of another for whom the individual is responsible rather than on the individual's the median value Noun 1. median value - the value below which 50% of the cases fall median statistics - a branch of applied mathematics concerned with the collection and interpretation of quantitative data and the use of probability theory to estimate population for their state and age category. All outcome measures had similar relationships to covariates. Final models included two-way interactions for age x state, age x education, age x smoking, age x drinking, state x education, state x smoking, and state x drinking. Results In multivariate The use of multiple variables in a forecasting model. analyses, symptom prevalence was greater among applicators who were from Iowa, had more than a high school education, smoked more, and drank more. There was a strong 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). inverse (mathematics) inverse - Given a function, f : D -> C, a function g : C -> D is called a left inverse for f if for all d in D, g (f d) = d and a right inverse if, for all c in C, f (g c) = c and an inverse if both conditions hold. association of symptoms with age: Applicators 66-75 years of age had 2.2 fewer symptoms and were half as likely to have [greater than or equal to] 10 symptoms than did applicators 18-30 years of age. Both measures of symptom count--having many ([greater than or equal to] 10) symptoms and total number of symptoms--were associated with overall pesticide use (Table 3). Applicators in the highest quartile Quartile A statistical term describing a division of observations into four defined intervals based upon the values of the data and how they compare to the entire set of observations. Notes: Each quartile contains 25% of the total observations. of lifetime days of pesticide use were 1.2 times as likely to experience [greater than or equal to] 10 symptoms and averaged 0.6 more symptoms in the year preceding enrollment, compared with the lowest quartile, with a weak dose-response relation across quartiles. Individuals with a history of pesticide poisoning experienced more symptoms than did those without such a history (Table 3). Applicators who had ever sought medical attention for pesticide-related illness also experienced more symptoms than those who had not (Table 3), even when individuals with a history of pesticide poisoning were excluded (doctor visit: 2.1 times more likely to have [greater than or equal to] 10 symptoms and 1.8 more symptoms). Experiencing a high-exposure event was associated with an increased symptom count, particularly when internal exposure (inhalation or ingestion of pesticide) was involved (Table 3). Again, similar results were seen when individuals with a history of pesticide poisoning were excluded (risk estimates for internal exposure were unchanged). Pesticides were grouped in functional categories, and cumulative use (lifetime days) and recent use (in the year before enrollment) were evaluated simultaneously. Cumulative use of insecticides was associated with both measures of symptom count, with a pronounced dose response (Table 3). Weaker associations of symptoms with cumulative herbicide herbicide (hr`bəsīd'), chemical compound that kills plants or inhibits their normal growth. A herbicide in a particular formulation and application can be described as selective or nonselective. , fungicide fungicide (fŭn`jəsīd', fŭng`gə–), any substance used to destroy fungi. Some fungi are extremely damaging to crops (see diseases of plants), and others cause diseases in humans and other animals (see fungal infection). , and fumigant fu·mi·gant n. A chemical compound used in its gaseous state as a disinfectant. use were observed. After accounting for cumulative use, recent use was not associated with an increased symptom count for any pesticide category (Table 3). Associations with cumulative use were similar in models not including recent use (data not shown). When cumulative use in all four functional categories was assessed simultaneously, associations with insecticides and fumigants were only slightly reduced, but relationships with herbicides and fungicides were no longer present; results were similar whether or not recent use was included in the models (data not shown). Insecticides were further categorized by chemical class, with cumulative and recent use evaluated simultaneously. Greater symptom count was associated with cumulative use in all four chemical classes of insecticides (Table 3). Associations were strongest for organophosphates and organochlorines; dose response for cumulative use was evident for all classes except pyrethroids pyrethroids synthetic substances with activity similar to the naturally occurring pyrethrins. They include cypermethrin, cyhalothrin, deltamethrin, flumethrin, permethrin. . After accounting for cumulative use, recent use was not associated with symptom count for any chemical class (Table 3). Associations with cumulative use were similar in models not including recent use (data not shown). When cumulative use in all four chemical classes was considered simultaneously, associations with organophosphates, organochlorines, and carbamates carbamates effective insecticides which exert their effect by temporarily inhibiting cholinesterase activity. They are also capable of poisoning. Clinical signs are pupillary constriction, muscle tremor, salivation, ataxia and dyspnea. were still present, although slightly attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. , but the relationship with pyrethroids was present only for number of symptoms and not for many symptoms; Results were similar whether or not recent use was included in the models (data not shown). Associations with cumulative use of pesticides in functional or chemical groups were not affected by excluding individuals with diagnosed pesticide poisoning (n = 363) or those who had experienced a high-exposure event (n = 2,688). In models including cumulative use of all four functional categories of pesticides, applicators in the highest category of insecticide use were 2.2-2.4 times as likely to experience [greater than or equal to] 10 symptoms and averaged 2.0-2.1 additional symptoms, regardless of whether or not individuals with pesticide poisoning, a high-exposure event, or either were excluded from the analysis. In models including cumulative use in all four chemical classes of insecticides, applicators in the highest category of organophosphate use were 1.6-1.7 times as likely to experience [greater than or equal to] 10 symptoms and averaged 1.0-1.1 additional symptoms, regardless of exclusions. Associations of symptoms with cumulative pesticide use were also not affected by excluding individuals with self-reported neurologic disease (n = 498), depression (n = 849), stroke (n = 113), head injury (n = 2,307), myocardial infarction myocardial infarction: see under infarction. (n = 518), or diabetes (n = 635); these were similar in Iowa and North Carolina and were not affected by adjusting for occupational exposure to solvents or metals on or off the farm (data not shown). Specific symptoms were also related to pesticide use. Symptoms were associated with use of any pesticide, any insecticide, organophosphates, organochlorines, or fumigants (Table 4). Pesticide poisoning, pesticide-related medical visits, and high-exposure events were also associated with increases in specific symptoms but did not alter the observed associations with pesticide use (data not shown). For any particular exposure measure, there was little variation in the magnitude of the associations among symptoms. Similar results were found when symptoms were grouped in categories defined a priori a priori In epistemology, knowledge that is independent of all particular experiences, as opposed to a posteriori (or empirical) knowledge, which derives from experience. to reflect particular aspects of neurologic function, including affect, cognition cognition Act or process of knowing. Cognition includes every mental process that may be described as an experience of knowing (including perceiving, recognizing, conceiving, and reasoning), as distinguished from an experience of feeling or of willing. , autonomic autonomic /au·to·nom·ic/ (aw?to-nom´ik) not subject to voluntary control. See under system. au·to·nom·ic adj. 1. Functionally independent; not under voluntary control. function, motor function, and vision (data not shown). Discussion In this study we found that increased symptom count was associated with cumulative lifetime use of pesticides, particularly insecticides and fumigants. Increased symptom count was also associated with a history of pesticide poisoning or events involving high personal pesticide exposure. Significantly, however, associations with cumulative use persisted even after excluding individuals with a history of pesticide poisoning or high exposure events. Recent pesticide use, within the year before reporting symptoms, was not related to symptom count after accounting for cumulative exposure, and adjustment for recent use did not affect the association of cumulative use with symptom count. Most previous studies of pesticides and neurologic symptoms have focused on organophosphates. Farm workers (Gomes et al. 1998; Strong et al. 2004), greenhouse workers (Bazylewicz-Walczak et al. 1999), and factory workers (Bellin and Chow 1974) exposed to organophosphates reported more symptoms than unexposed workers. Farmers and farm workers who applied organophosphates had higher symptom prevalence than did nonapplicators (London et al. 1998; Ohayo-Mitoko et al. 2000; Smit et al. 2003), as did commercial termiticide applicators (Steenland et al. 2000) and sheep dippers Noun 1. Dippers - a Baptist denomination founded in 1708 by Americans of German descent; opposed to military service and taking legal oaths; practiced trine immersion Church of the Brethren, Dunkers Baptist denomination - group of Baptist congregations (Pilkington et al. 2001). Other studies have used the Profile of Mood States Profile of Mood States Psychology A 65-item questionnaire that assesses a person's moods–eg, anger, anxiety, confusion, depression, fatigue, vigor or other scales to evaluate changes in mood, finding higher levels of tension, anxiety, anger, and depression in workers exposed to organophosphates (Bazylewicz-Walczak et al. 1999; Levin lev·in n. Archaic Lightning. [Middle English levene, levin; see leuk- in Indo-European roots.] et al. 1976; Steenland et al. 2000; Stokes Stokes , William 1804-1878. British physician. Known especially for his studies of diseases of the chest and heart, he expanded on the observations of John Cheyne in describing the breathing irregularity now known as Cheyne-Stokes respiration. et al. 1995). Most (Bellin and Chow 1974; Gomes et al. 1998; Leng and Lewalter 1999; Ohayo-Mitoko et al. 2000) although not all (Ciesielski et al. 1994; Lee et al. 2003) studies found increased symptom prevalence associated with inhibition of erythrocyte erythrocyte (ĭrĭth`rəsīt'): see blood. erythrocyte or red blood cell or red blood corpuscle Blood cell that carries oxygen from the lungs to the body tissues. acetylcholinesterase acetylcholinesterase /ac·e·tyl·cho·lin·es·ter·ase/ (AChE) (-ko?li-nes´ter-as) an enzyme present in the central nervous system, particularly in nervous tissue, muscle, and red cells, that catalyzes the hydrolysis of acetylcholine to activity, a biomarker biomarker /bio·mark·er/ (bi´o-mahr?ker) 1. a biological molecule used as a marker for a substance or process of interest. 2. tumor marker. bi·o·mark·er n. 1. of recent organophosphate exposure. Although poisoning by high exposures to organochlorines, fungicides, and fumigants as well as organophosphates is well documented, and carbamates, pyrethroids, and herbicides are also neurotoxic neurotoxic pertaining to or emanating from a neurotoxin. neurotoxic state a case of poisoning by a neurotoxin. neurotoxic adjective (Ecobichon 1996; Keifer and Mahurin 1997), questions remain concerning the effects of moderate exposure to pesticides other than organophosphates. One study of moderate exposure found that dichlorodiphenyltrichoroethane (DDT DDT or 2,2-bis(p-chlorophenyl)-1,1,1,-trichloroethane, chlorinated hydrocarbon compound used as an insecticide. First introduced during the 1940s, it killed insects that spread disease and feed on crops. ) was associated with increased symptom prevalence (van Wendel de Joode et al. 2001), as did one study of fumigants (Anger et al. 1986), but not another (Calvert et al. 1998). We found that symptom count was related to all classes of pesticides examined, although associations with herbicides and fungicides appeared to be due to confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor by insecticide use. Organophosphate, carbamate carbamate /car·ba·mate/ (kahr´bah-mat) any ester of carbamic acid. car·ba·mate n. A salt or ester of carbamic acid. , and organochlorine insecticides were independently associated with increased risk. The relative neurotoxicity of specific chemicals or chemical classes may differ for acute high-level and chronic moderate exposure. For example, the stronger effects that we observed for organochlorines may be related to their long biologic half-lives (Ecobichon 1996). Few previous studies were able to distinguish between effects of acute and chronic exposure because the two are often correlated. Two studies with sufficient information to make the distinction found that in farmworkers who applied pesticides increased symptom prevalence was associated with acute but not chronic exposure (London et al. 1998; Ohayo-Mitoko et al. 2000). In contrast, our results suggest that at moderate levels cumulative lifetime exposure has a greater impact on symptom prevalence than exposure during the year before reporting symptoms. This disparity dis·par·i·ty n. pl. dis·par·i·ties 1. The condition or fact of being unequal, as in age, rank, or degree; difference: "narrow the economic disparities among regions and industries" may be due to the higher level of exposure experienced by farm workers compared with licensed applicators. The role of pesticide poisoning in the apparent effects of cumulative use is still a question. We confirmed previous reports that a history of pesticide poisoning is associated with increased symptom prevalence (Kamel and Hoppin 2004). A notable finding in our study is that a history of events involving high personal pesticide exposure conferred con·fer v. con·ferred, con·fer·ring, con·fers v.tr. 1. To bestow (an honor, for example): conferred a medal on the hero; conferred an honorary degree on her. equally great risk, even in the absence of diagnosed poisoning. Some studies have not differentiated exposed individuals with a history of pesticide poisoning from those without. Two studies that excluded poisoned individuals found no relationship of moderate organophosphate exposure to symptom prevalence (Ames et al. 1995; Fiedler et al. 1997), although a study of DDT that excluded poisoned individuals did find an association (van Wendel de Joode et al. 2001). We found dose-related associations of symptom count to cumulative exposure to all insecticides, organophosphates, and organochlorines whether or not we excluded individuals with a history of pesticide poisoning or those who had experienced high-exposure events, indicating that moderate exposure itself is associated with increased risk. Our findings were similar regardless of whether we considered summary measures of all symptoms, individual symptoms, or symptom groups defined a priori. These results are consistent with previous studies suggesting that moderate pesticide exposure is associated with a wide range of symptoms, reflecting cognitive, sensory, and motor dysfunction and affecting both the central and peripheral nervous systems peripheral nervous system: see nervous system. (Kamel and Hoppin 2004). Pesticide exposure may be associated with some fundamental disorder, such as depression or neurologic disease, which then influences the experience or perhaps the reporting of multiple symptoms. Similarly, confounding by head injury, which was related to pesticide exposure in the AHS cohort, might explain some of the increase in symptoms. However, our findings were not affected by excluding individuals with depression, neurologic disease, or head injury. The earliest manifestation of neurotoxicity after moderate pesticide exposure may in fact be an increase in many symptoms, not restricted to particular aspects of neurologic function. A similar increase in a wide range of symptoms is associated with 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 in mild cases of chronic solvent-related toxic encephalopathy encephalopathy /en·ceph·a·lop·a·thy/ (en-sef?ah-lop´ah-the) any degenerative brain disease. AIDS encephalopathy HIV e. anoxic encephalopathy hypoxic e. (van der Hoek et al. 2000; White and Proctor A person appointed to manage the affairs of another or to represent another in a judgment. In English Law, the name formerly given to practitioners in ecclesiastical and admiralty 1997). Confounding by demographic factors does not appear to explain our results. There was a strong inverse association of symptom prevalence with age. The basis of this association is unclear; it may represent participants' understanding of the symptom questions or reporting proclivities rather than a real relationship. Other explanations are possible. Symptomatic individuals may have left farming at an early age and thus never entered our cohort, representing a type of healthy worker effect. Younger applicators used more pesticides in the year before enrollment, the period for which symptom prevalence was reported; however, adjusting for recent use did not affect associations with cumulative use. In any case, because symptom prevalence decreased and cumulative exposure increased with age, confounding by age or age-related conditions like heart disease or diabetes cannot explain the positive associations we observed with cumulative exposure; moreover, excluding individuals with the latter conditions did not affect our results. This point is particularly important in interpreting results for organochlorine pesticides. Secular trends secular trend The relatively consistent movement of a variable over a long period. A stock in a secular uptrend is an indicator that the security has experienced an extended period of rising prices. in use mean that older applicators are more likely to have used these chemicals, but this cannot account for the association with symptoms because age was inversely in·verse adj. 1. Reversed in order, nature, or effect. 2. Mathematics Of or relating to an inverse or an inverse function. 3. Archaic Turned upside down; inverted. n. 1. related to symptom count. We adjusted for other potential confounders, including education, so these are also unlikely to account for our results. We had no information on personality traits that may have affected symptom reporting, and so could not adjust for these, but they are unlikely to have covaried with exposure, particularly in a way that could account for the dose-response relationships 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 we observed. Potential bias is also a concern. The present analysis was based on the subset of private applicators who completed the take-home questionnaire. Although these are only 44% of the private applicators enrolled in the AHS, they are clearly representative of the cohort as a whole: Applicators who did or did not complete the take-home questionnaire were similar for every lifestyle or demographic characteristic except age; for health outcomes, including experience of pesticide-related health symptoms; and for farm characteristics and tasks and a variety of measures of pesticide exposure (Tarone et al. 1997). These results mitigate concerns regarding selection bias. Because symptoms were self-reported, another concern is potential recall or reporting bias. However, the fact that only some pesticides were associated with symptoms suggests that recall bias does not account for our findings. Risks associated with insecticide exposure were dose-related, further suggesting that bias does not explain our results. Moreover, our findings are biologically plausible, because we found the greatest risk for insecticides, which are designed to be neurotoxicants. An important strength of our study is its large size. Further, because farming practices are considerably different in Iowa and North Carolina, the AHS cohort represents a diverse farming population (Alavanja et al. 1996, 1999a). We used internal comparisons of more and less exposed individuals from the same population, thereby reducing potential confounding. The primary strength of the study is, however, the availability of detailed exposure information. Although the present analysis is limited by its cross-sectional design, data on symptoms and pesticide exposure were collected in separate portions of the questionnaires, some completed at different times, minimizing potential bias. Exposure data were reported by the applicators themselves, but farmers in general and AHS cohort members in particular report pesticide use reliably (Blair et al. 2002; Hoppin et al. 2002). In conclusion, we found that prevalence of neurologic symptoms was associated with cumulative lifetime exposure to pesticides, particularly organophosphate and organochlorine insecticides and fumigants. These associations were present in individuals with no history of pesticide poisoning or high exposure events and were independent of recent exposure. Thus, they are likely due to chronic moderate exposure. Although the neurotoxicity of high-level exposure is accepted, more attention to the risks associated with moderate exposure may be required. We thank M. Shepherd and M. Richards for data analysis; the Iowa (C. Lynch, N. Logsden-Sackett, P. Gillette, and E. Heywood) and North Carolina (C. Knott, M. Pennybacker, and J. Herrington) field stations for conducting the Agricultural Health Study; and W. Boyes Boyes is a chain of department stores in the UK. William Boyes founded the firm in 1881 and his sons, grandsons and great-grandchildren have carried on the business. It is still family owned today and has grown from one small shop in Scarborough, North Yorkshire to a chain of 33 and K. Thomas for thoughtful comments on the manuscript. The authors declare they have no competing financial interests. Received 7 October 2004; accepted 14 April 2005. REFERENCES AHS. 2004. Agricultural Health Study. Rockville, MD:National Institutes of Health and the US Environmental Protection Agency. Available: http://www.aghealth.org/questionnaires. html [accessed 5 October 2004]. Alavanja MC, Sandler DP, McDonnell CJ, Lynch CF, Pennybacker M, Zahm SH, et al. 1999a. Characteristics of pesticide use in a pesticide applicator cohort: the Agricultural Health Study. Environ Res 80:172-179. Alavanja MC, Sandier DP, McDonnell CJ, Mage DT, Kross BC, Rowland AS, et al. 1999b. Characteristics of persons who self-reported a high pesticide exposure event in the Agricultural Health Study. Environ Res 80:180-186. Alavanja MCR MCR My Chemical Romance (band) MCR Minimum Capital Requirement MCR Minimum Cell Rate MCR Middle Common Room (UK universities) MCR Multivariate Curve Resolution , Sandier D, McMaster S Noun 1. McMaster - United States historian who wrote a nine volume history of the people of the United States (1852-1932) John Bach McMaster , Zahm S, McDonnell C, Lynch C, et al. 1996. The Agricultural Health Study. Environ Health Perspect 104:362-369. Ames R, Steenland K, Jenkins B, Chrislip D, Russo J. 1995. Chronic neurologic sequelae to cholinesterase cholinesterase /cho·lin·es·ter·ase/ (-es´ter-as) serum cholinesterase, pseudocholinesterase; an enzyme that catalyzes the hydrolytic cleavage of the acyl group from various esters of choline and some related compounds; determination of inhibition among agricultural pesticide applicators. Arch Environ Health 50:440-444. Anger W, Moody L, Burg J, Brightwell WS, Taylor BJ, Russo JM, et al. 1986. Neurobehavioral evaluation of soil and structural fumigators using methyl bromide methyl bromide Toxicology An insecticide and rodenticide, which is a volatile fumigant 3-fold denser than air and absorbed through skin, producing narcosis, pulmonary edema, renal tubule damage, jacksonian convulsions, CNS depression, peripheral neuropathy; and sulfuryl fluoride Sulfuryl fluoride is the chemical compound with the formula SO2F2. This inorganic gas has properties more similar to sulfur hexafluoride than sulfuryl chloride, being resistant to hydrolysis even up to 150 °C. . Neurotoxicology 7:137-156. Bazylewicz-Walczak B, Majczakowa W, Szymczak M. 1999. Behavioral effects of occupational exposure to organophosphorous pesticides in female greenhouse planting workers. Neurotoxicology 20:819-826. Bellin J, Chow I. 1974. Biochemical bi·o·chem·is·try n. 1. The study of the chemical substances and vital processes occurring in living organisms; biological chemistry; physiological chemistry. 2. effects of chronic low-level exposure to pesticides. Res Comm See comms. Chem Pathol Pharmacol 9:325-337. Blair A, Tarone R, Sandier D, Lynch CF, Rowland A, Wintersteen W, et el. 2002. Reliability of reporting on life-style and agricultural factors by a sample of participants in the Agricultural Health Study from Iowa. Epidemiology 13:94-99. Calvert GM, Mueller CA, Fajen JM, Chrislip DW, Russo J, Briggle T, et al. 1998. Health effects associated with sulfuryl fluoride and methyl bromide exposure among structural fumigation fumigation: see disinfectant. workers. Am J Public Health 82:1774-1780. Ciesielski S, Loomis DP, Mires SR, Auer A. 1904. Pesticide exposures, cholinesterase depression, and symptoms among North Carolina migrant mi·grant n. 1. One that moves from one region to another by chance, instinct, or plan. 2. An itinerant worker who travels from one area to another in search of work. adj. Migratory. farmworkers. Am J Publ Health 84:448-451. Ecobichon DJ. 1996. Toxic effects of pesticides. In: Casarett and Doull's 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. : The Basic Science of Poisons (Klaassen DC, Amdur MO, Doull J, eds). Boston:McGraw-Hill, 643-689. Fiedler N, Kipen H, Kelly-McNeil K, Fenske R. 1997. Long-term use of organophosphates and neuropsychological neu·ro·psy·chol·o·gy n. The branch of psychology that deals with the relationship between the nervous system, especially the brain, and cerebral or mental functions such as language, memory, and perception. performance. Am J Ind Med 32:487-496. Gomes J, Lloyd O, Revitt MD, Basha M. 1998. Morbidity among farm workers in a desert country in relation to long-term exposure to pesticides. Scand J Work Environ Health 24:213-219. Hoppin JA, Yucel F, Dosemeci M, Sandler DP. 2002. Accuracy of self-reported pesticide use duration information from licensed pesticide applicators in the Agricultural Health Study. J Expo Anal anal (a´n'l) relating to the anus. a·nal adj. 1. Of, relating to, or near the anus. 2. Environ Epidemiol 12:313-318. Kamel F, Hoppin JA. 2004. Association of pesticide exposure with neurologic dysfunction and disease. Environ Health Perspect 112:950-958. Keifer M, Mahurin R. 1997. Chronic neurologic effects of pesticide overexposure overexposure too long an exposure time or too high a milliamperage causing too black a picture, loss of detail and some anomalies of translucency. . Occup Med 12:291-304. Lee BW, London L, Paulauskis J, Myers J, Christiani DC. 2003. Association between human paraoxonase gene 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. and chronic symptoms in pesticide-exposed workers. J Occup Environ Med 45:118-122. Leng G, Lewalter J. 1909. Role of individual susceptibility susceptibility the state of being susceptible. Refers usually to infectious disease but may be to physical factors such as wetting or to psychological factors such as harassment. in risk assessment of pesticides. Occup Environ Med 66:449-453. Levin H, Rodnitzky R, Mick D. 1976. Anxiety associated with exposure to organophosphate compounds. Arch Gen Psychiatry psychiatry (səkī`ətrē, sī–), branch of medicine that concerns the diagnosis and treatment of mental, emotional, and behavioral disorders, including major depression, schizophrenia, and anxiety. 33:225-228. London L, Nell V, Thompson ML, Myers JE. 1988. Effects of long-term organophosphate exposures on neurological neurological, neurologic pertaining to or emanating from the nervous system or from neurology. neurological assessment evaluation of the health status of a patient with a nervous system disorder or dysfunction. symptoms, vibration sense and tremor tremor /trem·or/ (trem´er) an involuntary trembling or quivering. action tremor rhythmic, oscillatory, involuntary movements of the outstretched upper limb; it may also affect the voice and among South African farm workers. Scand J Work Environ Health 24:18-29. Lundberg I, Hogberg M, Michelsen H, Nise G, Hogstedt C. 1997. Evaluation of the Q16 questionnaire on neurotoxic symptoms and a review of its use. Occup Environ Med 54:343-350. Ohayo-Mitoko GJ, Kromhout H, Simwa JM, Boleij JS, Heederik D. 2000. Self reported symptoms and inhibition of acetylcholinesterase activity among Kenyan agricultural workers. Occup Environ Med 57:195-200. Pilkington A, Buchanan D, Jamal GA, Gillham R, Hansen S Han·sen , Gerhard Henrik Armauer 1746-1845. Norwegian physician and bacteriologist who discovered (1869) the leprosy bacillus. , Kidd M, et al. 2001. An epidemiological study An Epidemiological study is a statistical study on human populations, which attempts to link human health effects to a specified cause. of the relations between exposure to 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 indices of chronic peripheral neuropathy Peripheral Neuropathy Definition The term peripheral neuropathy encompasses a wide range of disorders in which the nerves outside of the brain and spinal cord—peripheral nerves—have been damaged. and neuropsychological abnormalities in sheep farmers sheep farmer n → ganadero (de ovejas) sheep farmer n → éleveur m de moutons sheep farmer sheep n → and dippers. Occup Environ Med 58:702-710. Savage E, Keefe TJ, Mounce LM, Heaton RK, Lewis JA, Burcar PJ. 1988. Chronic neurological sequelae of acute organophosphate pesticide poisoning. Arch Environ Health 43:38-45. Smit LAM, van Wendel de Joode BN, Heederik D, Peiris-John RJ, van der Hoek W. 2003. Neurologic symptoms among Sri Lanken farmers occupationally exposed to acetylcholinesterase-inhibiting insecticides. 44:254-264. Steenland K, Dick RB, Howell RJ, Chrislip DW, Hines CJ, Reid TM, et al. 2000. Neurologic function among termiticide applicators exposed to chlorpyrifos. Environ Health Perspect 108:293-300. Stokes L, Stark A, Marshall E, Narang A. 1995. Neurotoxicity among pesticide applicators exposed to organophosphates. Occup Environ Med 52:648-653. Strong LL, Thompson B, Coronado GD, Griffith WC, Vigoren EM, Isles I. 2004. Health symptoms and exposure to organophosphate pesticides in farmworkers. Am J Ind Mad 46:599-606. Tarone RE, Alavanja MC, Zahm SH, Lubin JH, Sandler DP, McMaster SB, et al. 1997. The Agricultural Health Study: factors affecting completion and return of self-administered questionnaires in a large prospective cohort study of pesticide applicators. Am J Ind Med 31:233-242. U.S. EPA. 2002. Promoting Safety for America's Future. FY 2002 Annual Report. Washington, DC:U.S. Environmental Protection Agency, Office of Pesticide Programs. Available: http://www.epa.gov/oppfead1/annual/2002/2002annual report.pdf [accessed 25 March 2004]. van der Hoek JA, Verberk MM, Hageman G. 2000. Criteria for solvent-induced chronic toxic encephalopathy: a systematic review. Int Arch Occup Environ Health 73:362-368. van Wendel de Joode B, Wesseling C, Kromhout H, Monge P, Garcia M, Mergler D. 2001. Chronic nervous-system effects of long-term occupational exposure to DDT. Lancet lancet /lan·cet/ (lan´set) a small, pointed, two-edged surgical knife. lan·cet n. 357:1014-1016. Wesseling C, Keifer M, Ahlbom A, McConnell R, Moon J, Rosenstock L, et al. 2002. Long-term neurobehavioral effects of mud poisonings with organophosphate and n-methyl carbamate pesticides among banana workers. Int J Occup Environ Health 8:27-34. White RF, Proctor SP. 1097. Solvents and neurotoxicity. Lancet 349:1239-1243. Freya Kamel, (1) Lawrence S Lawrence. 1 City (1990 pop. 26,763), Marion co., central Ind., a residential suburb of Indianapolis, on the West Fork of the White River. It has light manufacturing. 2 City (1990 pop. 65,608), seat of Douglas co., NE Kans. . Engel, (2) Beth C. Gladen, (1) Jane A. Hoppin, (1) Michael C. R. Alavanja, (3) and Dale P. Sandler (1) (1) 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 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 , 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. , NC, USA; (2) Memorial Sloan-Kettering Cancer Center The Memorial Sloan-Kettering Cancer Center (MSKCC) in New York City is a cancer treatment and research institution founded in 1884 as the New York Cancer Hospital. The main campus is located at 1275 York Avenue, between 67th and 68th Streets, with other locations in New , New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of , New York, USA; (3) National Cancer Institute, National Institutes of Health, Department of Health and Human Services, 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 Address correspondence to F. Kamel, Epidemiology Branch, National Institute of Environmental Health Sciences, 111 TW Alexander Dr., Room A360, Research Triangle Park, NC 27709 USA. Telephone: (919) 541-1581. Fax: (919) 541-2511. E-mail: kamel@niehs.nih.gov
Table 1. Characteristics of licensed pesticide applicators
enrolled in the AHS 1993-1997 (n = 18,782). (a)
Characteristic Percent
Age (years)
18-30 8
31-35 9
36-40 13
41-45 14
46-50 12
51-55 12
56-60 12
61-65 10
66-75 10
State
Iowa 70
North Carolina 30
Education (b)
[less than or equal to] High school 56
> High school 44
Cigarette smoking (lifetime pack-years) (b)
0 57
> 0-30 35
> 30 8
Alcohol use (any consumption in last year) (b)
No 34
Yes 66
(a) The analysis was restricted to white men who provided a
response for each of 23 neurologic symptoms. (b) Missing data
(< 3%) were imputed on an age- and state-specific basis for
education, cigarette smoking, and alcohol use, using medians
of the relevant strata.
Table 2. Percentage of study participants experiencing the indicated
frequency of neurologic symptoms in the year before enrollment, among
licensed pesticide applicators enrolled in the AHS 1993-1997
(n = 18,782). (a)
Once Once Once > Once
Symptom Never a year a month a week a week
Headache 32 18 36 10 * 4 *
Fatigue 42 16 24 10 9 *
Tension 48 16 22 9 * 6 *
Insomnia 57 10 19 8 * 7 *
Irritability 63 13 16 5 * 3 *
Dizziness 72 19 7 * 1 * 1 *
Numbness in hands or feet 73 9 10 4 * 5 *
Depression 73 12 10 * 3 * 2 *
Nausea 73 24 3 * < 1 * < 1 *
Absentmindedness 76 7 9 4 * 4 *
Difficulty concentrating 80 7 7 * 3 * 2 *
Loss of appetite 82 11 5 * 1 * < 1 *
Excessive sweating 83 8 5 * 2 * 2 *
Twitches in arms or legs 83 7 6 * 2 * 2 *
Fast heart rate 85 7 5 * 2 * 1
Weakness in arms or legs 85 6 5 * 1 * 2 *
Poor balance 88 7 3 * 1 * 1 *
Poor night vision 88 3 3 * 1 * 4 *
Tremor in hands 89 5 * 3 * 1 * 2 *
Blurred/double vision 90 5 * 3 * 1 * 1 *
Changes in smell or taste 94 4 * 1 * < 1 * < 1 *
Difficulty speaking 96 2 * 1 * 1 * 1
Loss of consciousness 98 1 * < 1 * < 1 * < 1 *
(a) Symptoms are listed in order of decreasing frequency. Symptom
distributions were dichotomized so that the positive category included
between 5 and 15% of participants.
* Responses included in the positive ("case") category.
Table 3. Association of summary measures of neurologic symptom
prevalence with pesticide use and exposure among licensed pesticide
applicators enrolled in the AHS 1993-1997 (n = 18,782)
Exposure Case (%) Control (%)
Use of any pesticide
Cumulative lifetime days of use
0-64 23 25
65-200 22 21
201-396 27 26
397-7,000 28 27
Ever diagnosed with pesticide
poisoning
No 96 98
Yes 4 2
Ever received medical attention
for pesticide-related illness
No 89 95
Saw doctor only 9 4
Hospitalized 2 1
Ever had an event involving high
personal exposure
No event 76 88
Yes, no internal exposure (c) 13 8
Yes, with internal exposure (c) 11 4
Cumulative pesticide use, functional
categories
Insecticides (lifetime days,
without or with use in past
year)
0 days 5 9
1-50 days, no use in past year 14 15
1-50 days, used in past year 8 10
51-500 days, no use in past year 22 22
51-500 days, used in past year 32 31
> 500 days, no use in past year 6 5
> 500 days, used in past year 12 9
Herbicides (lifetime days, without
or with use in past year)
0 days 2 3
1-50 days, no use in past year 5 5
1-50 days, used in past year 5 6
51-500 days, no use in past year 13 13
51-500 days, used in past year 36 36
> 500 days, no use in past year 7 7
> 500 days, used in past year 32 30
Fungicides (lifetime days, without
or with use in past year)
0 days 69 71
1-50 days, no use in past year 12 10
1-50 days, used in past year 9 8
> 50 days, no use in past year 4 4
> 50 days, used in past year 8 7
Fumigants (lifetime days, without
or with use in past year)
0 days 78 81
1-50 days, no use in past year 13 11
1-50 days, used in past year 3 3
> 50 days, no use in past year 5 4
> 50 days, used in past year 2 2
Cumulative insecticide use, chemical
classes
Organophosphates (lifetime days,
without or with use in past
year)
0 days 9 14
1-50 days, no use in past year 20 21
1-50 days, used in past year 11 12
51-500 days, no use in past year 21 20
51-500 days, used in past year 29 27
> 500 days, no use in past year 4 3
> 500 days, used in past year 6 4
Organochlorines (lifetime days,
without or with use in past
year)
0 days 51 56
1-50 days, no use in past year 29 27
1-50 days, used in past year 1 1
> 50 days, no use in past year 18 16
> 50 days, used in past year 1 1
Carbamates (lifetime days, without
or with use in past year)
0 days 40 45
1-50 days, no use in past year 29 26
1-50 days, used in past year 5 6
> 50 days, no use in past year 15 14
> 50 days, used in past year 10 10
Pyrethroids (lifetime days,
without or with use in past
year)
0 days 72 78
1-50 days, no use in past year 13 10
1-50 days, used in past year 6 5
> 50 days, no use in past year 4 3
> 50 days, used in past year 5 3
Many No. symptoms
symptoms (a) (b) [[beta]
Exposure [OR (95% CI)] (SE)]
Use of any pesticide
Cumulative lifetime days of use
0-64 1.00 (referent) 0 (referent)
65-200 1.16 (1.04-1.30) 0.45 (0.10)
201-396 1.14 (1.02-1.26) 0.47 (0.10)
397-7,000 1.20 (1.08-1.33) 0.60 (0.10)
Ever diagnosed with pesticide
poisoning
No 1.00 (referent) 0 (referent)
Yes 2.46 (1.97-3.08) 2.58 (0.25)
Ever received medical attention
for pesticide-related illness
No 1.00 (referent) 0 (referent)
Saw doctor only 2.25 (1.95-2.59) 2.07 (0.16)
Hospitalized 1.98 (1.43-2.74) 1.76 (0.35)
Ever had an event involving high
personal exposure
No event 1.00 (referent) 0 (referent)
Yes, no internal exposure (c) 1.80 (1.60-2.02) 1.68 (0.12)
Yes, with internal exposure (c) 3.04 (2.65-3.49) 3.08 (0.15)
Cumulative pesticide use, functional
categories
Insecticides (lifetime days,
without or with use in past
year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.64 (1.36-1.97) 1.25 (0.15)
1-50 days, used in past year 1.34 (1.09-1.63) 0.90 (0.17)
51-500 days, no use in past year 1.89 (1.58-2.25) 1.67 (0.14)
51-500 days, used in past year 1.82 (1.53-2.15) 1.72 (0.14)
> 500 days, no use in past year 2.50 (2.00-3.13) 2.34 (0.20)
> 500 days, used in past year 2.50 (2.06-3.03) 2.43 (0.17)
Herbicides (lifetime days, without
or with use in past year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.04 (0.77-1.40) 0.57 (0.27)
1-50 days, used in past year 0.85 (0.63-1.15) 0.28 (0.26)
51-500 days, no use in past year 1.16 (0.89-1.52) 0.79 (0.24)
51-500 days, used in past year 1.11 (0.86-1.43) 0.80 (0.23)
> 500 days, no use in past year 1.32 (0.99-1.75) 1.10 (0.26)
> 500 days, used in past year 1.27 (0.98-1.64) 1.25 (0.23)
Fungicides (lifetime days, without
or with use in past year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.31 (1.16-1.48) 0.94 (0.12)
1-50 days, used in past year 1.21 (1.05-1.39) 0.60 (0.13)
> 50 days, no use in past year 1.23 (1.00-1.50) 0.60 (0.19)
> 50 days, used in past year 1.24 (1.05-1.45) 0.67 (0.15)
Fumigants (lifetime days, without
or with use in past year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.48 (1.31-1.66) 1.06 (0.11)
1-50 days, used in past year 1.16 (0.90-1.48) 0.19 (0.23)
> 50 days, no use in past year 1.50 (1.24-1.81) 0.99 (0.18)
> 50 days, used in past year 1.29 (0.98-1.71) 0.56 (0.27)
Cumulative insecticide use, chemical
classes
Organophosphates (lifetime days,
without or with use in past
year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.39 (1.20-1.60) 1.00 (0.12)
1-50 days, used in past year 1.25 (1.06-1.46) 0.80 (0.14)
51-500 days, no use in past year 1.63 (1.41-1.88) 1.36 (0.12)
51-500 days, used in past year 1.59 (1.39-1.83) 1.47 (0.12)
> 500 days, no use in past year 2.16 (1.71-2.73) 1.91 (0.23)
> 500 days, used in past year 2.23 (1.84-2.71) 2.08 (0.19)
Organochlorines (lifetime days,
without or with use in past
year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.60 (1.45-1.75) 1.24 (0.09)
1-50 days, used in past year 1.04 (0.61-1.74) 0.74 (0.48)
> 50 days, no use in past year 2.00 (1.78-2.23) 1.76 (0.10)
> 50 days, used in past year 2.23 (1.51-3.31) 1.74 (0.42)
Carbamates (lifetime days, without
or with use in past year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.42 (1.30-1.56) 1.02 (0.09)
1-50 days, used in past year 1.18 (1.00-1.40) 0.57 (0.16)
> 50 days, no use in past year 1.55 (1.38-1.75) 1.22 (0.11)
> 50 days, used in past year 1.48 (1.27-1.71) 1.15 (0.14)
Pyrethroids (lifetime days,
without or with use in past
year)
0 days 1.00 (referent) 0 (referent)
1-50 days, no use in past year 1.31 (1.17-1.47) 0.80 (0.12)
1-50 days, used in past year 1.16 (0.99-1.37) 0.61 (0.16)
> 50 days, no use in past year 1.24 (1.09-1.58) 0.86 (0.19)
> 50 days, used in past year 1.31 (1.09-1.58) 1.09 (0.19)
(a) Proportion of applicators who experienced [greater than or equal
to] 10 versus < 10 specific symptoms in the year before enrollment.
Results are expressed as odds ratio (OR) with 95% confidence interval
(95% CI) from logistic regressions adjusted for age, state, education,
cigarette smoking, and alcohol use. (b) Number of specific symptoms
experienced at least once in the year before enrollment, used as a
continuous variable. Results are expressed as estimates (SE) from
linear regressions adjusted for age, state, education, cigarette
smoking, and alcohol use. (c) A high-pesticide-exposure event
involving internal exposure was defined as one involving inhalation
or ingestion of pesticide.
Table 4. Associations of specific neurologic symptoms with pesticide
exposure among licensed pesticide applicators enrolled in the AHS
1993-1997 (n = 18,782).
Any All
pesticide insecticides
Headache 1.25 * 1.80 *
Fatigue 0.99 2.29 *
Tension 1.22 * 1.98 *
Insomnia 1.24 * 1.78 *
Irritability 1.16 * 2.33 *
Dizziness 1.26 * 2.34 *
Numbness in hands or feet 1.18 * 2.64 *
Depression 1.19 * 2.30 *
Nausea 1.11 1.93 *
Absentmindedness 1.12 2.57 *
Difficulty concentrating 1.15 * 2.27 *
Loss of appetite 1.14 1.80 *
Excessive sweating 1.12 2.03 *
Twitches in arms or legs 1.16 * 2.65 *
Fast heart rate 1.22 * 2.19 *
Weakness in arms or legs 1.01 1.84 *
Poor balance 1.20 * 2.46 *
Poor night vision 1.24 * 2.06 *
Tremor in hands 1.26 * 2.20 *
Blurred/double vision 1.25 * 2.08 *
Changes in smell or taste 1.61 * 2.11 *
Difficulty speaking 1.30 * 2.25 *
Loss of consciousness 1.49 * 1.41
Organo- Organo-
phosphates chlorines Fumigants
Headache 1.62 * 1.31 * 1.10
Fatigue 2.34 * 1.60 * 1.10
Tension 1.82 * 1.55 * 1.30 *
Insomnia 1.70 * 1.56 * 1.21
Irritability 1.93 * 1.57 * 1.46 *
Dizziness 1.77 * 1.66 * 1.38 *
Numbness in hands or feet 2.67 * 1.75 * 1.25 *
Depression 2.09 * 1.68 * 1.31
Nausea 1.88 * 1.59 * 1.37
Absentmindedness 2.13 * 1.75 * 1.24 *
Difficulty concentrating 2.07 * 1.84 * 1.36 *
Loss of appetite 1.76 * 1.51 * 1.22
Excessive sweating 1.84 * 1.70 * 1.10
Twitches in arms or legs 2.34 * 1.68 * 1.43 *
Fast heart rate 1.95 * 1.74 * 1.23
Weakness in arms or legs 1.82 * 1.77 * 1.03
Poor balance 1.77 * 1.95 * 1.40 *
Poor night vision 1.85 * 1.62 * 1.38 *
Tremor in hands 2.00 * 1.68 * 1.17
Blurred/double vision 1.87 * 1.75 * 1.29 *
Changes in smell or taste 1.83 * 2.12 * 1.57 *
Difficulty speaking 1.94 * 1.97 * 1.07
Loss of consciousness 1.26 1.76 * 1.34
Table entries are odds ratios for experiencing the symptom with high
frequency compared with low frequency, using cut points shown in
Table 2. Odds ratios were calculated by logistic regression models
with adjustment for age, state, education, cigarette smoking, and
alcohol use. Estimates are for the highest category of lifetime days
of use of the indicated pesticide groups.
* Estimates for which the 95% confidence interval excluded 1.00.
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