Association of pesticide exposure with neurologic dysfunction and disease.Poisoning by acute high-level exposure to certain pesticides has well-known neurotoxic neurotoxic pertaining to or emanating from a neurotoxin. neurotoxic state a case of poisoning by a neurotoxin. neurotoxic adjective effects, but whether chronic exposure to moderate levels of pesticides is also neurotoxic is more controversial. Most studies of moderate pesticide exposure have found increased prevalence of neurologic neurologic /neu·ro·log·ic/ (-loj´ik) pertaining to neurology or to the nervous system. Neurologic Having to do with the nervous system. symptoms and changes in neurobehavioral performance, reflecting 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. dysfunction. There is less evidence that moderate exposure is related to deficits in sensory or motor function or peripheral 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. , but fewer studies have considered these outcomes. It is possible that the most sensitive manifestation of pesticide 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. is a general malaise lacking in specificity and related to mild cognitive dysfunction, similar to that described for Gulf War syndrome Gulf War syndrome, popular name for a variety of ailments experienced by veterans after the Persian Gulf War. Symptoms reported include nausea, cramps, rashes, short-term memory loss, fatigue, difficulty in breathing, headaches, joint and muscle pain, and birth . Most studies have focused on 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. insecticides insecticides, chemical, biological, or other agents used to destroy insect pests; the term commonly refers to chemical agents only. Chemical Insecticides , but some found neurotoxic effects from other pesticides, including 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 , fumigants, and organochlorine or·gan·o·chlo·rine n. Any of various hydrocarbon pesticides, such as DDT, that contain chlorine. and carbamate carbamate /car·ba·mate/ (kahr´bah-mat) any ester of carbamic acid. car·ba·mate n. A salt or ester of carbamic acid. insecticides. Pesticide exposure may also be associated with increased risk of Parkinson disease Parkinson Disease Definition Parkinson disease (PD) is a progressive movement disorder marked by tremors, rigidity, slow movements (bradykinesia), and posture instability. ; several classes of pesticides, including insecticides, herbicides, and fungicides, have been implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. . Studies of other neurodegenerative diseases neurodegenerative diseases diseases characterized by neurodegeneration. Lesions are microscopic only but in chronic disease with massive involvement there may be grossly visible atrophy of affected nervous tissue. are limited and inconclusive. Future studies will need to improve assessment of pesticide exposure in individuals and consider the role of genetic susceptibility. More studies of pesticides other than organophosphates are needed. Major unresolved issues include the relative importance of acute and chronic exposure, the effect of moderate exposure in the absence of poisoning, and the relationship of pesticide-related neurotoxicity to neurodegenerative disease Neurodegenerative disease A disease in which the nervous system progressively and irreversibly deteriorates. Mentioned in: Amnesia . Key words: fumigant fu·mi·gant n. A chemical compound used in its gaseous state as a disinfectant. , 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). , 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. , neurobehavioral performance, neurodegenerative disease, neurologic symptoms, organophosphate, Parkinson disease, pesticide. Environ Health Perspect 112:950-958 (2004). doi:10.1289/ehp.7135 available via http://dx.doi.org/[Online 20 May 2004] ********** 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. , more than 18,000 products are licensed for use, and each year > 2 billion pounds of pesticides are applied to crops, homes, schools, parks, and forests [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. ) Office of Pesticide Programs 2002]. Such widespread use results in pervasive human exposure. Evidence continues to accumulate that pesticide exposure is associated with impaired health. Occupational exposure is known to result in an annual incidence of 18 cases of pesticide-related illness for every 100,000 workers in the United States (Calvert et al. 2004). The best-documented health effects involve the nervous system. The neurotoxic consequences of acute high-level pesticide exposure are well established: Exposure is associated with a range of symptoms as well as deficits in neurobehavioral performance and abnormalities in nerve function (Keifer and Mahurin 1997). Whether exposure to more moderate levels of pesticides is also neurotoxic is more controversial. Pesticide exposure may also be associated with increased risk of neurodegenerative disease, particularly Parkinson disease (Le Couteur et al. 1999). In this review, we summarize briefly what is known about the neurotoxic effects of high-level exposure, describe in more detail the existing data on neurotoxic effects of chronic exposure at lower levels, and then discuss the relationship of pesticide exposure to neurologic disease. Although pesticide exposure may have significant effects on neurodevelopment (Eskenazi et al. 1999), this review focuses on effects in adults [greater than or equal to] 18 years of age. Since differences in approach to evaluating pesticide exposure may play a crucial role in creating inconsistencies among studies, we first consider pesticide exposure assessment. Pesticide Exposure Pesticides are a broad range of substances most commonly used to control insects, weeds, and fungi (plant diseases). They are frequently classified by target organism or mode of use as insecticides, herbicides, fungicides, or fumigants. Insecticides are often subclassified by chemical type as organophosphates (OPs), organochlorines organochlorines see chlorinated hydrocarbons. organochlorines poisoning cause excitement and irritability, tremor, ataxia, weakness, paralysis, convulsions. , 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. , and pyrethroids pyrethroids synthetic substances with activity similar to the naturally occurring pyrethrins. They include cypermethrin, cyhalothrin, deltamethrin, flumethrin, permethrin. . Individuals are frequently exposed to many different pesticides or mixtures of pesticides, either simultaneously or serially. These exposures are often highly correlated, particularly within functional or chemical groups, making it difficult to identify effects of particular agents. Studies of pesticide neurotoxicity have typically evaluated either the long-term sequelae sequelae Clinical medicine The consequences of a particular condition or therapeutic intervention 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 the effects of occupational exposure (Table 1). Pesticide poisoning may go undiagnosed, especially among farmworkers with poor access to medical care (Moses et al. 1993) and particularly among women (London et al. 2002). Thus, workers who have never been diagnosed with pesticide poisoning may still have sustained high exposures or experienced pesticide-related illness; therefore using diagnosed poisoning as a criterion for inclusion in an exposed group or exclusion from a comparison group may incorrectly classify individuals. Some studies of occupational pesticide exposure have classified as exposed all members of an occupational group---typically farmers or farmworkers--sometimes also considering job duration. The potential for misclassification with this approach is high. Farm owners who employ others to apply pesticides may have limited personal exposure to pesticides. Even among pesticide applicators, exposure can vary widely. For example, farmworkers with little access to information about safety practices or protective equipment (Gomes et al. 1999) may sustain far more exposure than well-trained and equipped commercial applicators (Maizlish et al. 1987). Further, farmworkers who do not apply pesticides as part of their job may still be exposed, and even family members with no direct occupational exposure may be exposed at home or elsewhere (Fenske 1997; Gladen et al. 1998), so neither of these may be an appropriate comparison group. Factors such as application method, use of personal protective equipment, work practices related to hygiene, spills, and attitudes toward risk may all influence the degree of pesticide exposure and can be incorporated into exposure estimates (Alavanja et al. 2004; Buchanan et al. 2001; Dosemeci et al. 2002; Gomes et al. 1999; Hernandez-Valero et al. 2001; London and Myers 1998; Ohayo-Mitoko et al. 1999; Stewart et al. 2001). The relationship of these factors to exposure can be complex. For example, wearing gloves can increase exposure under some circumstances (Hines et al. 2001), perhaps because fabric (as opposed to chemically impervious im·per·vi·ous adj. 1. Incapable of being penetrated: a material impervious to water. 2. Incapable of being affected: impervious to fear. ) gloves can become impregnated im·preg·nate tr.v. im·preg·nat·ed, im·preg·nat·ing, im·preg·nates 1. To make pregnant; inseminate. 2. To fertilize (an ovum, for example). 3. with pesticide and serve as a reservoir of exposure. The same may be true of other types of protective clothing (Ohayo-Mitoko et al. 1999). In developing countries, use of closed pesticide mixing and loading systems may increase exposure when the equipment is used to speed up work and increase productivity rather than to protect workers (McConnell et al. 1992). Additional factors may be crucial for evaluating exposure in farmworkers, such as availability of washing and drinking water drinking water supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. , interval between application of pesticides to a field and re-entry RE-ENTRY, estates. The resuming or retaking possession of land which the party lately had. 2. Ground rent deeds and leases frequently contain a clause authorizing the landlord to reenter on the non-payment of rent, or the breach of some covenant, when the of workers, and housing conditions housing conditions npl → condiciones fpl de habitabilidad housing conditions npl → conditions fpl de logement (Arcury and Quandt 1998; Gomes et al. 1999; Hernandez-Valero et al. 2001; Tielemans et al. 1999). Studies of neurotoxicity have used all these kinds of information to evaluate pesticide exposure (Gomes et al. 1999; Ohayo-Mitoko et al. 1999). The most sophisticated approaches were employed by London and Myers (1998), who used a cropand job-specific job exposure matrix to evaluate exposure in a study of the neurotoxicity of chronic OP exposure among South African farmworkers, and by Buchanan et al. (2001), who developed an exposure algorithm to predict diazinon diazinon an organophosphorus insecticide, used in ear tags for cattle and in flea collars and rinses for dogs. Called also dimpylate. See also organophosphorus compound. exposure for a study of chronic neurologic effects among 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 in the United Kingdom. Both historic and current exposures may be relevant to neurotoxicity and need to be characterized. Even among people who remain in the same occupation, current exposure may not reflect past exposure patterns because both available products and methods of use change over time. The need to evaluate past as well as current exposure has limited the utility of biomarkers; most modern pesticides are not persistent, so studies of chronic exposure rely primarily on questionnaire-based methods. Biomarkers are, however, useful in some situations. For example, organochlorines have a long half-life, so serum levels can be used as a marker of exposure to these pesticides. OP 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 (ACHE) can also be used as an exposure marker. The effect lasts 3-4 months, so AChE activity in whole blood or erythrocytes Erythrocytes Red blood cells. Mentioned in: Bartonellosis erythrocytes (ē·rithˑ·rō·sīts), n.pl red blood cells. can be used to evaluate subchronic exposure, although interpretation can be complicated by acute exposure. Although the clinical utility of this biomarker in individuals may be limited by variability in baseline levels, in populations chronic OP exposure is associated with small but reliable decreases in erythrocyte AChE activity (Karr et al. 1992; Ohayo-Mitoko et al. 1997). OPs also inhibit plasma butylcholinesterase, but the effect lasts at most a few weeks and is therefore not useful for evaluating chronic exposure. 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 by carbamates lasts only minutes, so it is not a useful marker of chronic exposure to these pesticides. Estimating lifetime pesticide exposure quantitatively is difficult because it is affected by many factors, including the multiple chemicals involved, uncertainty regarding the degree of exposure related to specific job tasks or other events, and contributions from multiple sources of exposure, including sources unrelated to occupation. Further, the biologically relevant exposure measure is not known: Peak or average exposure intensity might be more important than cumulative exposure. Thus, attempts to assess quantitative 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 may be problematic. The goal of exposure assessment in epidemiologic studies epidemiologic study A study that compares 2 groups of people who are alike except for one factor, such as exposure to a chemical or the presence of a health effect; the investigators try to determine if any factor is associated with the health effect is not, however, to assign quantitative dose estimates but rather to rank individuals by relative exposure level. Assignment of either exposed or unexposed individuals to the wrong category can be a significant problem, as can combining individuals with low and high levels of exposure into one group. Random misclassification of exposure, unrelated to health outcome, will typically weaken studies by making associations more difficult to detect, although it will not undermine the validity of any association that is observed. As discussed above, assuming that all farmers or even all pesticide applicators are equally exposed is likely to entail significant misclassification, as is assuming that all farmworkers who are not applicators are not exposed. Further, studies that identify only a single highly exposed group for study cannot evaluate the neurotoxicity of moderate exposure, which may have great significance to public health. Methods described above can correctly categorize 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 study participants with respect to their relative exposure levels, and using such methods to increase precision of exposure assessment may help minimize inconsistencies among studies. Neurotoxicity of High-Level Exposure Most types of pesticides, including OP, carbamate, and organochlorine insecticides as well as fungicides and fumigants, can be neurotoxic, but only OPs have been studied in detail (Keller and Mahurin 1997). The response to OPs can occur within minutes. Less severe cases of OP poisoning display symptoms including headache, dizziness, nausea, vomiting vomiting, ejection of food and other matter from the stomach through the mouth, often preceded by nausea. The process is initiated by stimulation of the vomiting center of the brain by nerve impulses from the gastrointestinal tract or other part of the body. , pupillary pu·pil·lar·y adj. Of or affecting the pupil of the eye. pupillary pertaining to or emanating from the pupil. pupillary aperture the pupil. constriction constriction /con·stric·tion/ (kon-strik´shun) 1. a narrowing or compression of a part; a stricture.constric´tive 2. a diminution in range of thinking or feeling, associated with diminished spontaneity. , and excessive sweating, tearing, and salivation salivation /sal·i·va·tion/ (sal?i-va´shun) 1. the secretion of saliva. 2. ptyalism. sal·i·va·tion n. 1. The act or process of secreting saliva. 2. . More severe cases develop muscle weakness and twitches, bronchospasm bronchospasm /bron·cho·spasm/ (brong´ko-spazm) bronchial spasm; spasmodic contraction of the smooth muscle of the bronchi, as in asthma. bron·cho·spasm n. , and changes in heart rate and can progress to convulsions Convulsions Also termed seizures; a sudden violent contraction of a group of muscles. Mentioned in: Heat Disorders and coma. The mechanism of OP neurotoxicity in most cases involves overstimulation of postsynaptic postsynaptic /post·sy·nap·tic/ (-si-nap´tik) distal to or occurring beyond a synapse. post·syn·ap·tic adj. Situated behind or occurring after a synapse. cholinergic receptors cholinergic receptor n. Any of the sites in effector cells or at synapses through which acetylcholine exerts its action. Also called cholinoreceptor. after inhibition of AChE (Keifer and Mahurin, 1997), although other macromolecular mac·ro·mol·e·cule n. A very large molecule, such as a polymer or protein, consisting of many smaller structural units linked together. Also called supermolecule. targets may also be involved (Pope 1999). An intermediate syndrome intermediate syndrome Toxicology A condition caused by organophosphorus insecticides, characterized by chronic distal motor polyneuropathy, possibly due to a neuromuscular junction defect Clinical 5% to 10% of those exposed develop paralysis of cranial motor , occurring 1-4 days after exposure, is characterized by muscle weakness and can be fatal if respiratory muscles are affected. Two to five weeks after exposure, some patients develop OP-induced delayed polyneuropathy polyneuropathy /poly·neu·rop·a·thy/ (-ndbobr-rop´ah-the) neuropathy of several peripheral nerves simultaneously. amyloid polyneuropathy , a well-characterized syndrome involving sensory abnormalities, muscle cramps, weakness, and even paralysis, primarily in the legs. These symptoms are a consequence of axonal axonal pertaining to or arising from an axon. axonal degeneration an axon dies and cannot be replaced if its cell body is destroyed. death following OP inhibition of a neural enzyme called neuropathy neuropathy Disorder of the peripheral nervous system. It may be genetic or acquired, progress quickly or slowly, involve motor, sensory, and/or autonomic (see autonomic nervous system) nerves, and affect only certain nerves or all of them. target 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. and may be irreversible (Keifer and Mahurin 1997). Several studies have shown that OP poisoning has additional long-term sequelae. Studies of individuals with a history of pesticide poisoning--farmworkers (London et al. 1998; McConnell et al. 1994; Rosenstock et al. 1991; Wesseling et al. 2002), farmers (Stallones and Beseler 2002), rescue workers (Nishiwaki et al. 2001), or individuals identified from hospitals or pesticide registries (Miranda et al. 2002; Savage et al. 1988; Steenland et al. 1994)--have found that increased symptom prevalence, deficits in cognitive and psychomotor function, decreased vibration sensitivity, and motor dysfunction can occur long after the immediate episode is resolved. In some cases, effects were observed [greater than or equal to] 10 years after poisoning (Savage et al. 1988), suggesting that the residual damage is permanent. Even less severe poisoning can have long-term consequences: Banana farm workers who had been treated for 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 with OPs or carbamates but did not require hospitalization hospitalization /hos·pi·tal·iza·tion/ (hos?pi-t'l-i-za´shun) 1. the placing of a patient in a hospital for treatment. 2. the term of confinement in a hospital. performed worse on tests of cognitive and psychomotor function than did nonpoisoned workers when tested > 2 years later (Wesseling et al. 2002). Neurotoxicity of Low-Level Exposure Findings from studies of acute exposure to moderate levels of pesticides are inconsistent. Some studies of well-trained and -equipped pesticide applicators in the United States reported that exposure to OPs sustained during a single work shift (Maizlish et al. 1987) or assessed using a short-lived urinary biomarker (Dick et al. 2001) was associated with little neurotoxicity. However, several studies in developing countries, where exposures may have been higher, found that acute exposure to OPs was associated with increased symptom prevalence in commercial applicators (Misra et al. 1985) and farmworkers (London et al. 1998; Ohayo-Mitoko et al. 2000). Acute and chronic exposures are often correlated, sometimes making it difficult to separate their effects. The following discussion focuses on the effects of chronic exposure to moderate levels of pesticides, although in many studies acute exposure may also have occurred. Several types of neurologic end points are considered, including symptom prevalence, neurobehavioral performance, sensory and motor dysfunction, and direct measures of nerve function. Studies are summarized in Table 2. Symptom Prevalence Studies of symptom prevalence are often based on variations of an established checklist (Lundberg et al. 1997) and evaluate a broad range of symptoms, including headache, dizziness, fatigue, insomnia insomnia, abnormal wakefulness or inability to sleep. The condition may result from illness or physical discomfort, or it may be caused by stimulants such as coffee or drugs. However, frequently some psychological factor, such as worry or tension, is the cause. , nausea, chest tightness, and difficulty breathing as well as symptoms suggesting cognitive (confusion, difficulty concentrating), motor (weakness, 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 ), and sensory (numbness, tingling tin·gle v. tin·gled, tin·gling, tin·gles v.intr. 1. To have a prickling, stinging sensation, as from cold, a sharp slap, or excitement: tingled all over with joy. , visual disturbance) dysfunction. Pesticide exposure is associated with increases in prevalence of many symptoms, with little evidence for specificity. Most studies have focused on OPs; most of these found an association of exposure with increased symptom prevalence. Farmworkers (Gomes et al. 1998), greenhouse workers (Bazylewicz-Walczak et al. 1999), and factory workers (Bellin and Chow 1974) exposed to OPs reported increased symptom prevalence compared to unexposed workers. In particular, farmers and farmworkers who applied OPs had higher symptom prevalence than nonapplicators (London et al. 1998; Ohayo-Mitoko et al. 2000; Smit et al. 2003), as did commercial applicators (Misra et al. 1985; Steenland et al. 2000) and sheep dippers (Pilkington et al. 2001). Pesticides other than OPs also affect symptom prevalence: one study found that exposure to dichlorodiphenyltrichloroethane di·chlo·ro·di·phen·yl·tri·chlo·ro·eth·ane n. DDT. (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) although not another (Calvert et al. 1998). Additional studies have evaluated changes in mood and affect, using either self-report or validated scales. Workers exposed to OPs (Bazylewicz-Walczak et al. 1999; Steenland et al. 2000; Stokes et al. 1995) or DDT (van Wendel de Joode et al. 2001) reported higher levels of tension, anger, or depression on standard symptom questionnaires, and OP applicators showed elevated levels of anxiety on personality tests (Levin et al. 1976). Three studies found no association of OPs with symptom prevalence or affect (Ames et al. 1995; Fiedler et al. 1997; Korsak and Sato 1977). Increased symptom prevalence was correlated with inhibition of erythrocyte AChE in four studies of OP exposure (Bdlin and Chow 1974; Gomes et al. 1998; Leng and Lewalter 1999; Ohayo-Mitoko et al. 2000) and with inhibition of both erythrocyte AChE and plasma cholinesterase in two of these (Bellin and Chow 1974; Leng and Lewaher 1999). Another study found no relationship of symptom prevalence to inhibition of either erythrocyte or plasma cholinesterase (Lee et al. 2003). One study found that increased symptom prevalence was associated with self-reported pesticide exposure but not with depressed erythrocyte AChE activity (Ciesielski et al. 1994). Effects of OP exposure may not necessarily be caused by AChE inhibition (Pope 1999). Further, farmworkers have complex work histories and are likely to be exposed to pesticides other than OPs that may affect symptom prevalence without affecting ACHE. Neurobehavioral Performance Neurobehavioral test batteries, including the World Health Organization Neurobehavioral Core Test Battery (Anger et al. 2000), the Neurobehavioral Evaluation System (Letz et al. 1996), and portions of other batteries, have been used to evaluate pesticide effects on cognitive and psychomotor function. Tests included in these batteries assess memory, attention, visuospatial visuospatial /vis·uo·spa·tial/ (-spa´shal) pertaining to the ability to understand visual representations and their spatial relationships. vis·u·o·spa·tial adj. processing, and other aspects of cognitive function cognitive function Neurology Any mental process that involves symbolic operations–eg, perception, memory, creation of imagery, and thinking; CFs encompasses awareness and capacity for judgment ; commonly used tests include symbol digit, digit span, visual retention, pattern memory, trail making, and others. Most studies indicate that pesticide exposure is associated with deficits in cognitive function. Sheep dippers (Stephens et al. 1995), nursery workers (Bazylewicz-Walczak et al. 1999), and other workers (Korsak and Sato 1977) exposed to OPs, malaria-control workers who sprayed DDT (van Wendel de Joode et al. 2001), vineyard workers exposed to fungicides (Baldi et al. 2001), fumigators exposed to 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. but not those exposed to 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; (Anger et al. 1986; Calvert et al. 1998), and farmers (Cole et al. 1997), farmworkers (Gomes et al. 1998; Kamel et al. 2003), and pesticide applicators (Farahat et al. 2003) exposed to multiple pesticides all performed worse on tests of cognitive function. There are some inconsistencies among these studies. Although most studies found deficits on one or more tests of cognitive function, different tests were affected in different studies, and a few studies found no relationship of OP exposure to any test (Ames et al. 1995; Daniell et al. 1992; Fiedler et al. 1997; Rodnitzky et al. 1975; Steenland et al. 2000). Deficits in psychomotor function could be caused by impairment of sensory input, motor output, or associative delays; tests used include reaction time, tapping, pursuit aiming, Santa Ana Santa Ana, city, El Salvador Santa Ana (sän'tä ä`nä), city (1993 pop. 129,873), W El Salvador. It is the second largest city in the country and the commercial and processing center for a sugarcane, coffee, and cattle region. and other pegboard tests, and others. Most studies indicate that pesticide exposure is associated with deficits in psychomotor function. Farmworkers (Daniell et al. 1992; London et al. 1997), farmers (Fiedler et al. 1997) and termiticide applicators (Steenland et al. 2000) exposed to OPs, malaria-control workers who sprayed DDT (van Wendel de Joode et al. 2001), vineyard workers exposed to fungicides (Baldi et al. 2001), fumigators exposed to methyl bromide or sulfuryl fluoride (Anger et al. 1986; Calvert et al. 1998), and farmworkers with multiple exposures (Gomes et al. 1998; Kamel et al. 2003) all showed worse performance on tests of psychomotor function. Again, results for individual tests were not fully consistent within or among studies, and no change in psychomotor function was evident in two studies of OP exposure (Ames et al. 1995; Cole et al. 1997). Sensory and Motor Dysfunction Neurobehavioral test batteries are often supplemented with tests of sensory or motor function. One frequently used test is vibration sensitivity, which evaluates peripheral somatosensory somatosensory /so·ma·to·sen·sory/ (so?mah-to-sen´so-re) pertaining to sensations received in the skin and deep tissues. so·mat·o·sen·so·ry adj. function. Most available evidence suggests this is not affected by moderate pesticide exposure. One study of farmers exposed to OPs found decreased sensitivity (Stokes et al. 1995), and another of farmers exposed to multiple pesticides found both decreased sensitivity and other signs of 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. (Cole et al. 1998). However, other studies of individuals exposed to OPs (Ames et al. 1995; London et al. 1998; Pilkington et al. 2001; Steenland et al. 2000), DDT (van Wendel de Joode et al. 2001), fumigants (Anger et al. 1986; Calvert et al. 1998), or multiple pesticides (Kamel et al. 2003) found no relationship of exposure to vibration sensitivity or other measures of somatosensory function. Few studies have evaluated other aspects of sensory function. One study suggested that the sense of smell was not affected by OPs (Steenland et al. 2000); another study suggested a relationship with fumigants (Calvert et al. 1998). Visual contrast sensitivity was not affected by exposure to OPs (Steenland et al. 2000; van Wendel de Joode et al. 2001) or multiple pesticides (Kamel et al. 2003), but color vision Color vision The ability to discriminate light on the basis of wavelength composition. It is found in humans, in other primates, and in certain species of birds, fishes, reptiles, and insects. was (Steenland et al. 2000). Retinal retinal /ret·i·nal/ (ret´i-n'l) 1. pertaining to the retina. 2. the aldehyde of retinol, derived from absorbed dietary carotenoids or esters of retinol and having vitamin A activity. degeneration was associated with fungicide exposure in a case-control study 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 licensed pesticide applicators (Kamel et al. 2000). In general, these data are too limited to draw conclusions about the relationship to pesticide exposure to sensory function. Similarly, few studies have considered motor function, and few inferences can be made about its relationship to pesticide exposure. Tremor was related to exposure to multiple pesticides in one study (Davignon et al. 1965) but not to OPs in two others (London et al. 1998; Steenland et al. 2000). Grip strength Grip strength is the force applied by the hand to pull on or suspend from objects. Optimum-sized objects permit the hand to wrap around a cylindrical shape with a diameter from one to three inches. was not related to exposure to fumigants (Anger et al. 1986), DDT (van Wendel de Joode et al. 2001), or multiple pesticides (Kamel et al. 2003). Balance is an integrated sensorimotor sensorimotor /sen·so·ri·mo·tor/ (sen?sor-e-mo´ter) both sensory and motor. sen·so·ri·mo·tor adj. Of, relating to, or combining the functions of the sensory and motor activities. function. An early study found deficits in balance in apple farmers exposed to multiple pesticides (Davignon et al. 1965). In modern studies, balance is commonly evaluated by a test of postural sway; varying the conditions of the test may indicate whether impaired balance is related to deficits in visual, proprioceptive Proprioceptive Pertaining to proprioception, or the awareness of posture, movement, and changes in equilibrium and the knowledge of position, weight, and resistance of objects as they relate to the body. , or vestibular ves·tib·u·lar adj. Of, relating to, or serving as a vestibule, especially of the ear. Vestibular Pertaining to the vestibule; regarding the vestibular nerve of the ear which is linked to the ability to hear sounds. input. Three studies of individuals exposed to OPs (Steenland et al. 2000) or to multiple pesticides (Kamel et al. 2003; Sack et al. 1993) found that impaired postural sway was associated with exposure, but effects were small and another study found no relationship of OP exposure to postural sway (Ames et al. 1995). Effects were most evident when both visual and proprioceptive inputs were removed, suggesting that vestibular function may be affected (Kamel et al. 2003; Sack et al. 1993). Nerve Function Studies that have evaluated peripheral nerve conduction have produced largely negative results. Several studies of OPs found little evidence of impaired nerve conduction (Ames et al. 1995; Engel et al. 1998; Steenland et al. 2000). One study of fumigators found deficits in nerve conduction (Calvert et al. 1998), but another did not (Anger et al. 1986). In contrast, fungicide exposure was related to impaired nerve conduction in a study of bulb farmers, which also found deficits in 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. nerve function (Ruijten et al. 1994). One study found changes in dectroencephalogram (EEG EEG: see electroencephalography. ) associated with OP exposure (Korsak and Sato 1977). Three studies have performed clinical neurologic examinations neurologic examination A battery of clinical tests that evaluates a person's physiologic function and mental status, as well as the presence of any structural–organic lesions that may cause changes in neurologic function. Cf Psychiatric examination. in a subset of individuals identified by field studies as having deficits related to OP exposure. Beach et al. (1996) studied sheep dippers with increased symptom prevalence (Stephens et al. 1995); Horowitz et al. (1999) studied apple farmers with decreased vibration sensitivity (Stokes et al. 1995); and Jamal et al. (2002) studied sheep dippers with peripheral neuropathy (Pilkington et al. 2001). In general, clinical examination confirmed the results of the field studies, although clinically recognizable neurologic abnormalities were minor and not present in all individuals identified by the field studies. Genetic Susceptibility to Pesticide Neurotoxicity Individual response to pesticide exposure may be affected by polymorphisms in genes affecting pesticide metabolism. The best-known example is paraoxonase, an enzyme that hydrolyzes active metabolites active metabolite Therapeutics A drug metabolite with therapeutic activity similar to the parent compound, which must be considered in therapeutic pharmacokinetics of OPs (Costa et al. 2003). Animal studies suggest that changes in serum paraoxonase activity alter susceptibility to OP toxicity (Costa et al. 2003). In humans, paraoxonase polymorphisms affect the relationship of OP exposure to both erythrocyte AChE inhibition and symptom prevalence (Lee et al. 2003; Leng and Lewalter 1999; Mackness et al. 2003; Sozmen et al. 2002). Although Costa et al. (2003) have suggested that adequate evaluation of susceptibility requires measuring serum paraoxonase activity as well as genotype genotype (jēn`ətīp'): see genetics. genotype Genetic makeup of an organism. The genotype determines the hereditary potentials and limitations of an individual. , recent population-based studies have suggested that the discrepancy between genotype and phenotype phenotype (fē`nətīp'): see genetics. phenotype All the observable characteristics of an organism, such as shape, size, colour, and behaviour, that result from the interaction of its genotype (total genetic makeup) with is relatively small and that nongenetic factors contribute relatively little to variation in serum activity (Ferre et al. 2003; Vincent-Viry et al. 2003). Neurodegenerative Disease Parkinson Disease An extensive literature suggests that pesticide exposure may increase risk of Parkinson disease (Le Couteur et al. 1999). Many studies have found an association of Parkinson disease risk with living in rural areas, drinking well water, and farming as an occupation (Priyadarshi et al. 2001). More specifically, case--control studies have observed that pesticide exposure is associated with increased Parkinson disease risk, although results are not fully consistent. Studies published before 1999 were reviewed by Le Couteur et al. (1999), who noted that 12 of 20 studies found a positive association, with 1.6- to 7-fold increases in risk. Some of these studies evaluated risks associated with ever exposure to any pesticide. This broad definition of exposure permits significant misdassification, which could minimize the magnitude of any association observed. Recent studies with more detailed exposure assessment have generally found an association of pesticide exposure with Parkinson disease, with 1.5- to 7-fold increases in risk. Case--control studies found increased risk associated with possession of a pesticide use license (Baldereschi et al. 2003), cumulative pesticide exposure based on complete occupational histories (Baldi et al. 2003a; Fall et al. 1999), or occupational or other pesticide use (Herishanu et al. 2001). A cross-sectional study cross-sectional study n. See synchronic study. cross-sectional study, n the scientific method for the analysis of data gathered from two or more samples at one point in time. found an association of parkinsonism with exposure to any pesticide, although not with specific pesticides or pesticide classes (Engel et al. 2001), and an ecologic study found that Parkinson disease mortality was higher in California counties where pesticides were used than in counties where they were not (Ritz and Yu 2000). Two cohort studies 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 with detailed exposure information confirmed these findings: Risk was related to years of plantation work and to self-reported pesticide exposure in men enrolled in the Honolulu Heart Program cohort (Petrovitch et al. 2002), and occupational exposure to pesticides assessed with a job-exposure matrix was strongly associated with Parkinson disease risk (5.6-fold increase in risk) in an older cohort living in a vineyard-growing region of France (Baldi et al. 2003b). Three case-control studies found no association of pesticide exposure with Parkinson disease (Behari et al. 2001; Kuopio et al. 1999; Taylor et al. 1999). Most studies of pesticide exposure and Parkinson disease risk have been unable to implicate im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. specific pesticides. Several studies found increased risk associated with exposure to either insecticides or herbicides (Butterfield et al. 1993; Gorell et al. 1998; Semchuk et al. 1992), and one study indicated that risk was elevated by exposure to organochlorines, OPs, or carbamates (Seidler et al. 1996). Several studies have implicated the 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. paraquat paraquat /para·quat/ (par´ah-kwaht) a poisonous compound, some of whose salts are used as contact herbicides. Contact with concentrated solutions causes irritation of the skin, cracking and shedding of the nails, and delayed healing of (Hertzman et al. 1990; Liou et al. 1997), which produces selective degeneration of neurons Neurons Nerve cells in the brain, brain stem, and spinal cord that connect the nervous system and the muscles. Mentioned in: Speech Disorders involved in Parkinson disease (McCormack et al. 2002). Case reports have described Parkinson disease in individuals exposed to OPs (Bhatt et al. 1999; Davis et al. 1978); to herbicides including glyphosate glyphosate herbicide and desiccant for grains. Heavy doses to birds cause soft shells on their eggs. (Barbosa et al. 2001), paraquat (Sanchez-Ramon et al. 1987), and diquat diquat a hormone weedkiller which may poison animals, particularly those grazing pasture contaminated by the agent. Lesions in fatal cases include pulmonary emphysema, enteritis, abomasitis and hepatic and myocardial degeneration. Clinical signs include diarrhea and a high mortality rate. (Sechi et al. 1992); and to fungicides including maneb (Meco et al. 1994) and other dithiocarbamates (Hoogenraad 1988). Higher concentrations of organochlorines, particularly dieldrin dieldrin: see insecticides. , have been found in postmortem postmortem /post·mor·tem/ (post-mort´im) performed or occurring after death. post·mor·tem adj. Relating to or occurring during the period after death. n. See autopsy. brains of Parkinson disease patients compared to patients with other neurologic diseases (Corrigan et al. 2000; Fleming et al. 1994). Animal models have also implicated pesticide exposure in the etiology of Parkinson disease. In rats, systemic administration of rotenone rotenone (rō`tənōn'): see insecticide. has been shown to produce highly selective neural degeneration similar to that found in Parkinson disease as well as a parkinsonian behavioral disorder behavioral disorder Psychiatry A disorder characterized by displayed behaviors over a long period of time which significantly deviate from socially acceptable norms for a person's age and situation (Betarbet et al. 2000). Treatment of mice with both paraquat and maneb reduced motor activity and striatal tyrosine hydroxylase Tyrosine hydroxylase or tyrosine 3-monooxygenase is the enzyme responsible for catalyzing the conversion of the amino acid L-tyrosine to dihydroxyphenylalanine (DOPA). activity, at doses at which neither compound was effective alone (Thiruchelvam et al. 2000). Other Neurodegenerative Diseases Information on pesticide exposure and other neurologic diseases is more limited. Several studies have suggested that risk of amyotrophic lateral sclerosis amyotrophic lateral sclerosis (ALS) (ā'mīətrōf`ik, sklĭrō`sĭs) or motor neuron disease, (ALS Als (äls), Ger. Alsen, island, 121 sq mi (313 sq km), Sønderjylland co., S Denmark, in the Lille Bælt, separated from the mainland by the narrow Alensund. ) is related to farming as an occupation, although not necessarily to living in rural areas (Nelson 1995-1996). Pesticide exposure has been considered in six case--control studies; three found some evidence for an association (Deapen and Henderson 1986; McGuire et al. 1997; Savettieri et al. 1991), whereas three others found none (Chancellor et al. 1993; Granieri et al. 1988; Gunnarsson et al. 1992). Only one study presented detailed exposure information (McGuire et al. 1997): Based on an industrial hygiene assessment of a complete occupational history, pesticide exposure was associated with > 2-fold increase in ALS risk, with greater risk at higher levels of exposure. This study did not implicate specific pesticides in ALS etiology. However, a cohort study found increased risk of ALS among workers exposed to the herbicide 2,4-dichlorophenoxyacetic acid (2,4-D) compared to other company employees, although this result was based on only three deaths (Burns et al. 2001). Case reports have described ALS after exposure to OPs (Bidstrup et al. 1953) and organochlorines (Fonseca et al. 1993). Dementia has also been related to pesticide exposure. Occupational exposure to unspecified pesticides and fertilizers was associated with risk of Alzheimer disease Alzheimer disease Degenerative brain disorder. It occurs in middle to late adult life, destroying neurons and connections in the cerebral cortex and resulting in significant loss of brain mass. in a large case--control study (McDowell et al. 1994), although another smaller study of environmental exposure in the general population found no relationship to herbicides, insecticides, or pesticides (Gauthier et al. 2001). Occupational exposure to any pesticide assessed with a job-exposure matrix was associated with 2-fold increase in risk of Alzheimer disease in a cohort of older individuals living in a vineyard-growing region of France and exposed primarily to dithiocarbamate fungicides (Baldi et al. 2003b). Occupational pesticide exposure was also associated with mild cognitive dysfunction in a population-based prospective study (Bosma et al. 2000), with vascular dementia vascular dementia n. A steplike deterioration in intellectual functions that result from multiple infarctions of the cerebral hemispheres. Also called multi-infarct dementia. (Lindsay et al. 1997), and with risk of dementia among Parkinson disease patients (Hubble et al. 1998). Understanding the relationship of pesticide exposure to Alzheimer disease may be complicated by the fact that the basic neurochemical neu·ro·chem·is·try n. The study of the chemical composition and processes of the nervous system and the effects of chemicals on it. neu defect in Alzheimer disease is loss of 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 neurons, and that to increase cholinergic tone Alzheimer disease is sometimes treated with OP cholinesterase inhibitors cholinesterase inhibitor n. A drug, such as neostigmine, that restores myoneural function by inhibiting the biodegradation of acetylcholine. Also called acetylcholinesterase inhibitor. (Ringman and Cummings 1999). Conclusion Most studies of neurotoxicity have documented an increase in symptom prevalence and changes in neurobehavioral performance reflecting cognitive and psychomotor dysfunction, but many found little effect of pesticide exposure on sensory or motor function or direct measures of nerve function. There are several potential explanations for these findings. Except for vibrotactile sensitivity, information on sensory and motor function is limited, and further study may reveal associations with pesticide exposure. Another possibility is that the increase in symptom prevalence is due to bias: Most studies were cross-sectional in design, and individuals with greater exposure or a 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. may have been more motivated to recall or report symptoms. 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 head injury or neurologic disease, either of which might be related to both pesticide exposure and increased symptom prevalence, could also create the appearance of an association. Consistency of findings across many studies argues against these explanations, as do the positive findings of some studies that used more quantitative exposure measures. Further, bias and confounding are less likely to account for changes in neurobehavioral performance, which is assessed using objective test batteries. Thus, moderate pesticide exposure may in fact have greater effects on symptom prevalence and neurobehavioral performance than on sensory or motor function. The lack of specificity of the symptomatic response is also interesting. It is possible that the earliest or most general response to pesticide neurotoxicity is a general malaise lacking in specificity and related to mild cognitive dysfunction, similar to that described for Gulf War syndrome (White et al. 2001). Although the weight of the evidence suggests that pesticide use is associated with increased symptom prevalence and deficits in neurobehavioral performance, there were some inconsistencies that future studies should attempt to resolve. It may be that certain functional domains are more sensitive to pesticides than others, but the current literature is too limited to resolve this question. Some of the inconsistencies among studies are likely due to methodologic differences. A critical concern is exposure assessment. Qualitative and quantitative aspects of the exposure under consideration differed among studies, as did the ability of the studies to assess exposure. Exposure measures ranged from job title to detailed assessment of cumulative exposure based on work history. There was, however, no clear-cut relationship between the quality of exposure assessment and the results of the studies. The choice of comparison group may also influence results. Responses to symptom questionnaires and neurobehavioral performance are influenced by age, education, and cultural background (Anger et al. 1997), so it is important for comparison groups to be demographically similar to exposed populations. However, using a comparison group from the same community or workplace as the exposed participants can create problems. Although the former may have no documented exposure, they may nevertheless not be truly unexposed, limiting the power of the study to detect effects. There may be no one best solution to this problem. Other aspects of study design, such as size, neurologic end points considered, and data analytic strategies including control for confounding, are likely to influence results. More than half of the studies considered were small, with < 100 exposed participants, and therefore had limited power to detect associations. Poor response rates in some studies may have biased results. Symptom questionnaires, neurobehavioral test batteries, and other methods for evaluating neurologic outcomes also varied among studies. In particular, different neurobehavioral batteries employ different tests of cognitive and psychomotor function. However, results were variable even for tests used in many studies. Implementation of a given test may vary between batteries; for example, a computerized version may differ from a paper-and-pencil model, but even this consideration may not explain all differences. A study of styrene sty·rene n. A colorless oily liquid from which polystyrenes, plastics, and synthetic rubber are produced. Also called vinylbenzene. found that grouping results of neurobehavioral tests provided increased power to detect effects of exposure, compared to evaluating individual tests (Heyer et al 1996). Use of similar analytic strategies might reduce inconsistencies among studies of pesticides. Pesticide exposure may be associated with increased risk of Parkinson disease. Inconsistencies among studies are again likely to be caused by variations in study methodology, particularly lack of detailed exposure assessment in some earlier studies. The positive results from recent studies with more comprehensive exposure assessment, together with support from animal models, reinforces the hypothesis of an association. Results for ALS and Alzheimer disease are suggestive but too sparse to support firm conclusions. Whether the subtle signs of neurotoxicity found in studies of poisoning and occupational exposure are related to the later development of neurodegenerative disease is a question not adequately addressed by the literature, although one study showed that short- and long-term responses to moderate exposure are not necessarily related (Stephens et al. 1996). Historically, most studies have focused on OPs, first to document sequelae of acute poisoning and then to explore the effects of chronic moderate exposure. There is also evidence suggesting that other types of pesticides, including organochlorines, carbamates, fungicides, and fumigants, are neurotoxic. No study has evaluated the association of herbicides with symptom prevalence or neurobehavioral performance, but these chemicals have been implicated as risk factors for Parkinson disease. Although it is important to identify classes of pesticides and even specific chemicals associated with neurotoxicity, it is also important to recognize that most workers are exposed to complex mixtures of pesticides, which may contribute synergistically syn·er·gis·tic adj. 1. Of or relating to synergy: a synergistic effect. 2. Producing or capable of producing synergy: synergistic drugs. 3. to neurotoxicity. Other aspects of the relationship of pesticide exposure to neurotoxicity remain to be clarified. Participants in most studies have sustained both chronic and acute exposures; because these are often correlated, the studies have not been able to disentangle their effects. It is also possible that studies of chronic moderate exposure have been influenced by inclusion of individuals with a history of pesticide poisoning in the exposed population. Several studies in which such individuals were excluded found no relationship of chronic exposure to neurobehavioral performance or nerve function (Ames et al. 1995; Engel et al. 1998; Fiedler et al. 1997), but other studies of nonpoisoned individuals have found associations (Kamel et al. 2003; Stephens et al. 1995; van Wendel de Joode et al. 2001), suggesting that moderate as well as high-level pesticide exposure is neurotoxic. An issue receiving increasing attention is genetic susceptibility to pesticide neurotoxicity. In particular, genetic variation in paraoxonase has been related to OP neurotoxicity. In conclusion, there is mounting evidence that chronic moderate pesticide exposure is neurotoxic and increases risk of Parkinson disease. To substantiate these findings, future studies must employ more detailed assessment of exposure in individuals and consider the role of genetic susceptibility. 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Hoppin 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. , North Carolina, USA Address correspondence to F. 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Table 1. Studies of chronic pesticide exposure and neurotoxicity:
exposure measurement. (a)
Reference Exposed population Chemical (b)
Ames et al. 1995 Pesticide registry OP
Anger et al. 1986 Fumigators Fumigants
Baldi et al. 2001 Vineyard workers FNG
Bazylewicz-Walczak et al. 1999 Greenhouse workers OP
Bellin and Chow 1974 Factory workers OP, CAR
Calvert et al. 1998 Fumigators Fumigants
Ciesielski et al. 1994 Farmworkers Multiple
Cole et al. 1997 Farmers, some OP, CAR, FNG
applicators
Cole et al. 1998 Farmers, some OP, CAR, FNG
applicators
Daniell et al. 1992 Farmworker applicators OP
Davignon et al. 1965 Apple farmers Multiple
Engel of al. 1998 Farmworkers OP
Farahat et al. 2003 Farmworker applicators OP, CAR, PYR
Fiedler et al. 1997 Fruit tree farmers OP
Gomes et al. 1998 Farmworkers Multiple
Kamel et al. 2003 Farmworkers Multiple
Korsak and Sato 1977 Occupational exposure OP
Levin et al. 1976 Pesticide applicators OP
London et al. 1997 Fruit farm applicators OP
London et al. 1998 Fruit farm applicators OP
McConnell et al. 1994 Farmworkers OP
Miranda et al. 2002 Hospital patients OP
Misra et al. 1985 Commercial applicators OP
Nishiwaki et al. 2001 Rescue workers OP
Ohayo-Mitoko et al. 2000 Farmworker applicators OP, CAR
Pilkington et al. 2001 Sheep dippers OP
Rodnitzky et al. 1975 Pesticide applicators OP
Rosenstock et al. 1991 Farmworkers OP
Ruijten et al. 1994 Flower bulb farmers FNG
Sack et al. 1993 Commercial applicators Multiple
Savage et al. 1988 Registry OP
Smit et al. 2003 Farmers Multiple
Stallones and Beseler 2002 Farmers, spouses Multiple
Steenland et al. 1994 Pesticide registry OP
Steenland et al. 2000 Commercial applicators OP
Stephens et al. 1995 Sheep dippers OP
Stokes et al. 1995 Apple orchard OP
applicators
van Wendel de Joode et al. 2001 Pesticide applicators DDT
Wesseling et al. 2002 Farmworkers OP, CAR
Reference Exposure measure (c) No.
Ames et al. 1995 Mild poisoning 45
Anger et al. 1986 High pesticide use 74
Baldi et al. 2001 Apply pesticide 528
Work in vineyards 173
Bazylewicz-Walczak et al. 1999 Work with plants 26
Bellin and Chow 1974 AChE inhibition 83
Calvert et al. 1998 High pesticide use 123
Ciesielski et al. 1994 Self-report; AChE inhibition 202
Cole et al. 1997 Apply pesticide 144
Cole et al. 1998 Apply pesticide 144
Daniell et al. 1992 Apply pesticide 49
Davignon et al. 1965 Apply pesticide 441
Engel of al. 1998 Current formwork 67
Farahat et al. 2003 Apply pesticide 52
Fiedler et al. 1997 Cumulative exposure 57
Gomes et al. 1998 Past and current formwork 226
Current formwork 92
Kamel et al. 2003 Years of work 288
Korsak and Sato 1977 High cumulative exposure 16
Levin et al. 1976 Current pesticide use 24
London et al. 1997 Cumulative exposure 163
London et al. 1998 Cumulative exposure 164
McConnell et al. 1994 Poisoning 36
Miranda et al. 2002 Poisoning 52
Misra et al. 1985 Apply pesticide 22
Nishiwaki et al. 2001 Poisoning 56
Ohayo-Mitoko et al. 2000 AChE inhibition 256
Pilkington et al. 2001 Cumulative exposure 612
Rodnitzky et al. 1975 Current pesticide use 23
Rosenstock et al. 1991 Poisoning 36
Ruijten et al. 1994 Apply pesticide 131
Sack et al. 1993 Apply pesticide 37
Savage et al. 1988 Poisoning 100
Smit et al. 2003 Apply pesticide 216
Stallones and Beseler 2002 Poisoning 69
Steenland et al. 1994 Poisoning 128
Steenland et al. 2000 Apply pesticide 191
Stephens et al. 1995 Apply pesticide 146
Stokes et al. 1995 Apply pesticide 68
van Wendel de Joode et al. 2001 Years apply pesticide 27
Wesseling et al. 2002 Poisoning 81
Reference Comparison group No.
Ames et al. 1995 Friends 90
Anger et al. 1986 Fumigators, low exposure 29
Baldi et al. 2001 Farmworkers, not exposed 216
Bazylewicz-Walczak et al. 1999 Greenhouse workers, not exposed 25
Bellin and Chow 1974 Faculty, students, staff 56
Calvert et al. 1998 Friends, neighbors 120
Ciesielski et al. 1994 Local population 42
Cole et al. 1997 Local population 72
Cole et al. 1998 Local population 72
Daniell et al. 1992 Slaughterhouse workers 40
Davignon et al. 1965 Local population 162
Engel of al. 1998 Local population 68
Farahat et al. 2003 Clerks, administrators 50
Fiedler et al. 1997 Berry farmers, storeowners 42
Gomes et al. 1998 Domestic workers 226
Kamel et al. 2003 Local population 51
Korsak and Sato 1977 Low cumulative exposure 16
Levin et al. 1976 Farmers 24
London et al. 1997 Farmworkers, not applicators 84
London et al. 1998 Farmworkers, not applicators 83
McConnell et al. 1994 Friends, siblings 36
Miranda et al. 2002 Cattle ranchers, fishermen 39
Misra et al. 1985 Hospital workers 20
Nishiwaki et al. 2001 Rescue workers, not exposed 52
Ohayo-Mitoko et al. 2000 Farmworkers 152
Pilkington et al. 2001 Farmers, ceramic workers 160
Rodnitzky et al. 1975 Farmers 24
Rosenstock et al. 1991 Friends, siblings 36
Ruijten et al. 1994 Population 67
Sack et al. 1993 Students, staff 35
Savage et al. 1988 Multiple sources 100
Smit et al. 2003 Fishermen 44
Stallones and Beseler 2002 Other farm residents 692
Steenland et al. 1994 Friends 90
Steenland et al. 2000 Friends, blue-collar workers 189
Stephens et al. 1995 Quarry workers 143
Stokes et al. 1995 Population 68
van Wendel de Joode et al. 2001 Guards, drivers 27
Wesseling et al. 2002 Farmworkers 130
Abbreviations: CAR, carbamates; FNG, fungicides; PYR, pyrethroids.
(a) Only studies of chronic exposure in adults [greater than or
equal to] 18 years of age with comparison groups are included. Two
studies (Baldi et al. 2001 and Games et al. 1998) evaluated two exposed
groups. In four cases, two references report studies of different
neurologic outcomes in the same population: Cole et al. (1997, 1998);
Levin et al. (1976) and Rodnitzky et al. (1975); London et al. (1997,
1998); and McConnell et al. (1994) and Rosenstock et al. (1991).
Studies are listed alphabetically. (b) Identifies the chemical
emphasized by the study; participants may have been exposed to others.
(c) Exposure measure that was used for evaluation of relationship of
chronic exposure to neurotoxicity; if more than one measure was used
for analysis, then the one providing the most specific information on
individual exposure is listed.
Table 2. Studies of chronic pesticide exposure and neurotoxicity:
neurologic outcomes.
Symptoms, Cognitive
Reference affect function
Ames et al. 1995 0 0
Anger et al. 1986 1 1
Baldi et al. 2001 1
Bazylewicz-Walczak et al. 1999 1 1
Bellin and Chow 1974 1
Calvert et al. 1998 0 1
Ciesielski et al. 1994 1
Cole et al. 1997 1
Cole et al. 1998
Daniell et al. 1992 0
Davignon et al. 1965
Engel et al. 1998
Farahat et al. 2003 1
Fiedler et al. 1997 0 0
Gomes et al. 1998 1 1
Kamel et al. 2003 1
Korsak and Sato 1977 0 1
Levin et al. 1976 1
London et al 1997
London et al. 1998 1
McConnell et al. 1994
Misra et al. 1985 1
Nishiwaki et al. 2001 1
Ohayo-Mitoko et al. 2000 1
Pilkington et al. 2001 1
Rodnitzky et al. 1975 0
Rosenstock et al. 1991 1 1
Ruijten et al. 1994
Sack et al. 1993
Savage et al. 1988 1 1
Smit et al. 2003 1
Stallones and Beseler 2002 1
Steenland et al. 1994 1 1
Steenland et al. 2000 1 0
Stephens et al. 1995 1
Stokes et al. 1995 1
van Wendel de Joode et al. 2001 1 1
Wesseling et al. 2002 1 1
Psychomotor Vibration
Reference function sensitivity Balance
Ames et al. 1995 0 0 0
Anger et al. 1986 1 0
Baldi et al. 2001 1
Bazylewicz-Walczak et al. 1999
Bellin and Chow 1974
Calvert et al. 1998 1 0
Ciesielski et al. 1994
Cole et al. 1997 0
Cole et al. 1998 1
Daniell et al. 1992 1
Davignon et al. 1965 1
Engel et al. 1998
Farahat et al. 2003
Fiedler et al. 1997 1
Gomes et al. 1998 1
Kamel et al. 2003 1 0 1
Korsak and Sato 1977
Levin et al. 1976
London et al 1997 1 0
London et al. 1998 0
McConnell et al. 1994 1
Misra et al. 1985
Nishiwaki et al. 2001 0 0 0
Ohayo-Mitoko et al. 2000
Pilkington et al. 2001 0
Rodnitzky et al. 1975
Rosenstock et al. 1991 1
Ruijten et al. 1994
Sack et al. 1993 1
Savage et al. 1988 1
Smit et al. 2003
Stallones and Beseler 2002
Steenland et al. 1994 1 1 0
Steenland et al. 2000 1 0 1
Stephens et al. 1995
Stokes et al. 1995 1
van Wendel de Joode et al. 2001 1 0
Wesseling et al. 2002 1
Nerve
Reference Tremor function (a)
Ames et al. 1995 0
Anger et al. 1986 0
Baldi et al. 2001
Bazylewicz-Walczak et al. 1999
Bellin and Chow 1974
Calvert et al. 1998 1
Ciesielski et al. 1994
Cole et al. 1997
Cole et al. 1998
Daniell et al. 1992
Davignon et al. 1965 1
Engel et al. 1998 0
Farahat et al. 2003
Fiedler et al. 1997
Gomes et al. 1998
Kamel et al. 2003
Korsak and Sato 1977 1
Levin et al. 1976
London et al 1997
London et al. 1998 0
McConnell et al. 1994
Misra et al. 1985
Nishiwaki et al. 2001
Ohayo-Mitoko et al. 2000
Pilkington et al. 2001
Rodnitzky et al. 1975
Rosenstock et al. 1991
Ruijten et al. 1994 1
Sack et al. 1993
Savage et al. 1988 0
Smit et al. 2003
Stallones and Beseler 2002
Steenland et al. 1994 0
Steenland et al. 2000 0 0
Stephens et al. 1995
Stokes et al. 1995
van Wendel de Joode et al. 2001
Wesseling et al. 2002
1 indicates the study found some relationship of pesticide exposure to
the general category of outcome, although not necessarily for all
tests; 0 indicates no relationship was observed for any test.
(a) Peripheral nerve conduction, EEG.
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