A longitudinal approach to assessing urban and suburban children's exposure to pyrethroid pesticides.We conducted a longitudinal study longitudinal study a chronological study in epidemiology which attempts to establish a relationship between an antecedent cause and a subsequent effect. See also cohort study. to assess the exposure of 23 elementary school-age children to pyrethroid py·re·throid n. Any of several synthetic compounds similar to pyrethrin, used as an insecticide. pesticides, using urinary pyrethroid metabolites Metabolites Substances produced by metabolism or by a metabolic process. Mentioned in: Interactions as exposure biomarkers. We substituted most of the children's conventional diets with organic food items for 5 consecutive days and collected two daily spot urine samples, first morning and before bedtime bedtime Sleep disorders The time when one attempts to fall asleep–as distinguished from the time when one gets into bed voids, throughout the 15-day study period. We analyzed urine samples for five common pyrethroid metabolites. We found an association between the parents' self-reported pyrethroid use in the residential environment and elevated pyrethroid metabolite metabolite, organic compound that is a starting material in, an intermediate in, or an end product of metabolism. Starting materials are substances, usually small and of simple structure, absorbed by the organism as food. levels found in their children's urine. Children were also exposed to pyrethroids pyrethroids synthetic substances with activity similar to the naturally occurring pyrethrins. They include cypermethrin, cyhalothrin, deltamethrin, flumethrin, permethrin. through their conventional diets, although the magnitude was smaller than for the residential exposure. Children's ages appear to be significantly associated with pyrethroids exposure, which is likely attributed to the use of pyrethroids around the premises or in the facilities where older children engaged in the outdoor activities. We conclude that residential 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. use represents the most important risk factor for children's exposure to pyrethroid insecticides insecticides, chemical, biological, or other agents used to destroy insect pests; the term commonly refers to chemical agents only. Chemical Insecticides . Because of the wide use of pyrethroids 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. , the findings of this study are important for both children's pesticide exposure assessment and environmental public health. Key words: children's pesticide exposure, dietary exposure, PBA PBA Professional Bowlers Association PBA Palm Beach Atlantic University (West Palm Beach, Florida) PBA Partial-Birth Abortion PBA Philippine Basketball Association PBA Public Broadcasting Atlanta (Georgia, USA) , permethrin permethrin /per·meth·rin/ (per-meth´rin) a topical insecticide used in the treatment of infestations by Pediculus humanus capitis, Sarcoptes scabiei, or any of various ticks; also applied to objects such as furniture and bedding. , pyrethroids, residential exposure, trans-DCCA, urinary 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. . Environ Health Perspect 114:1419-1423 (2006). doi:10.1289/ehp.9043 available via http://dx.doi.org/ [Online 8 June 2006] ********** Pyrethroids, a group of synthetic insecticides, were manufactured in the 1970s after the removal of organochlorine or·gan·o·chlo·rine n. Any of various hydrocarbon pesticides, such as DDT, that contain chlorine. insecticides, such as 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. , from the consumer market. The synthetic pyrethroids not only inherit To receive property according to the state laws of intestate succession from a decedent who has failed to execute a valid will, or, where the term is applied in a more general sense, to receive the property of a decedent by will. inherit v. the biologic activity (ability to kill insects) from their natural counterpart, pyrethrin pyrethrin (pīrē`thrĭn): see insecticide. , which is found in chrysanthemums, but are also improved in their environmental stability. Pyrethroids are widely used in agriculture, forest, textile industry, and public health programs worldwide (Heudorf and Angerer 2001). With the phaseout phase·out n. A gradual discontinuation. of organophosphorus or·gan·o·phos·pho·rus n. An organophosphate. or  gan·o·phos (OP) pesticide use in residential environments in the
United States [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. ) 1998], the availability of pyrethroids for consumer uses has increased since the late 1990s (U.S. EPA 2005). Although individual pyrethroid insecticides share some common physical and chemical properties as a group, their toxicologic mechanisms, unlike those of OP pesticides, vary in mammals The class Mammalia (the Mammals) is divided into two subclasses based on reproductive techniques: egg laying mammals (the Monotremes); and mammals which give live birth. The latter subclass is divided into two infraclasses: pouched mammals (the marsupials); and the placental mammals. . Pyrethroid insecticides are subject for review as potential developmental neurotoxicants because of their mode of action on voltage-sensitive sodium channels Sodium channels (also known as "voltage-gated sodium channels") are integral membrane proteins that conduct sodium ions (Na+) through a cell's plasma membrane. Many of the ionotropic receptors are also able to conduct sodium ions. (Kolaczinski and Curtis 2004; Shafer et al. 2005). In addition, permethrin, the most widely used pyrethroid 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. , is suspected to be an endocrine-disrupting chemical (Chen et al. 2002; Kakko et al. 2004; Kim et al. 2004) and, along with fenvalerate, has been classified as a potential carcinogen carcinogen: see cancer. carcinogen Agent that can cause cancer. Exposure to one or more carcinogens, including certain chemicals, radiation, and certain viruses, can initiate cancer under conditions not completely understood. at high exposure levels (U.S. EPA 2006). Toxicologic studies have also suggested that pyrethroids have a suppressive sup·pres·sive adj. Tending or serving to suppress. Adj. 1. suppressive - tending to suppress; "the government used suppressive measures to control the protest" effect on the immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. and may cause lymph node lymph node Small, rounded mass of lymphoid tissue contained in connective tissue. They occur all along lymphatic vessels, with clusters in certain areas (e.g., neck, groin, armpits). and spleen spleen, soft, purplish-red organ that lies under the diaphragm on the left side of the abdominal cavity. The spleen acts as a filter against foreign organisms that infect the bloodstream, and also filters out old red blood cells from the bloodstream and decomposes damage (Repetto and Baliga 1997). Although pyrethroids have been sold in the U.S. consumer market for > 30 years, with the estimated annual use ranging from several thousand to a million pounds (Agency for Toxic Substances and Disease Registry The United States Agency for Toxic Substances and Disease Registry, (ATSDR) is an agency for the U.S. Department of Health and Human Services that is directed by a congressional mandate to perform specific functions concerning the effect on public health of hazardous 2003), very few studies have been conducted to quantitatively assess human exposures to pyrethroids. Most of the relevant data were obtained from studies conducted in Germany or in occupational settings (Berger-Preiss et al. 2002; Hardt and Angerer 2003; Leng et al. 2003). Recently, the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ) reported urinary pyrethroid metabolite levels for the U.S. population 6-59 years of age in the Third National Report on Human Exposure to Environmental Chemicals, which is part of the National Health and Nutrition Examination Survey (NHANES NHANES National Health and Nutrition Examination Survey (US CDC) ) conducted in 2001-2002 (CDC 2005). All of these studies were conducted cross-sectionally, so the results represent exposures only over relatively short time periods. The primary objective of this study was to establish a temporal profile of pyrethroid exposure in a cohort of elementary school-age children living in an urban/suburban community, using urinary pyrethroid metabolites as exposure biomarkers. We also examined the relationship between pyrethroid exposure and children's diets, self-reported residential pyrethroid use, and age. Materials and Methods This study is part of the Children's Pesticide Exposure Study (CPES CPES Center for Power Electronics Systems (Virginia Tech) CPES College of Physical and Engineering Science CPES Certified Professional Employer Specialist CPES Contractor Performance Evaluation System ), which took place in the Seattle, Washington  This page is protected from moves until disputes have been resolved on the .The reason for its protection is listed on the protection policy page. , area from July 2003 to May 2004. Details of the study design and methods have been published previously (Lu et al. 2006). In brief, 23 children 3-11 years of age were recruited from local public elementary and Montessori schools for a 15-consecutive-day sample period in summer 2003, with repeated samplings in fall 2003 and in winter and spring 2004. This report discusses results of urinary pyrethroid metabolites only for the summer 2003 sampling period. Results from other sampling periods will be reported when they become available. Subject eligibility for enrollment included children exclusively consuming conventional diets and spending most of their time in one residence. Household pesticide use information was obtained via an in-person interview during an in-home appointment before the field sampling. Written consent was obtained from parents and older children who can read the consent form, whereas oral assent An intentional approval of known facts that are offered by another for acceptance; agreement; consent. Express assent is manifest confirmation of a position for approval. was obtained from younger children. The University of Washington Human Subject Committee approved the use of human subjects in this study. Sampling period. As previously reported (Lu et al. 2006), the 15-consecutive-day sampling period was divided into three phases. During phase 1 (days 1-3) and phase 3 (days 9-15), children consumed their normal conventional diets. During phase 2 (days 4-8), organic food items, including fresh fruits and vegetables, juices, processed fruit or vegetables (e.g., salsa), and wheat- or corn-based items (e.g., pasta, cereal, popcorn, or chips), were substituted for the children's conventional diet. These food items are routinely reported to contain pesticide residues Pesticide residue refers to the pesticides that may remain on or in food after they are applied to food crops.[1] Regulation of pesticide residue in the US [U.S. Department of Agriculture (USDA USDA, n.pr See United States Department of Agriculture. ) 2003]. Meats and dairy products dairy products dairy npl → produits laitier dairy products dairy npl → Milchprodukte pl, Molkereiprodukte pl were not substituted. Urine sample collection and analysis. For 15 consecutive days, the first morning void and last void of the day were collected from each child. These urine samples were refrigerated re·frig·er·ate tr.v. re·frig·er·at·ed, re·frig·er·at·ing, re·frig·er·ates 1. To cool or chill (a substance). 2. To preserve (food) by chilling. or maintained on ice before processing in the lab and then stored at -20[degrees]C until pesticide metabolite analysis was performed in the National Center for Environmental Health at the CDC in Atlanta, Georgia, using a liquid chromatography/tandem mass spectrometry mass spectrometry or mass spectroscopy Analytic technique by which chemical substances are identified by sorting gaseous ions by mass using electric and magnetic fields. method (Olsson et al. 2004). The targeted metabolites for pyrethroids included 3-penoxybenzoic acid (PBA), 4-fluoro-PBA (FPBA FPBA Fine Press Book Association (UK) FPBA Florida Police Benevolent Association FPBA Fresh Prince of Bel-Air (TV show) FPBA Federation of Publishers and Booksellers Associations (India) ), cis-2,2-(dichloro)-2-dimethylvinylcyclopropane carboxylic acid carboxylic acid: see carboxyl group. carboxylic acid Any organic compound with the general chemical formula −COOH in which a carbon (C) atom is bonded to an oxygen (O) atom by a double bond to make a carbonyl group (−C=O; see (cis-DCCA), trans-DCCA, and cis-2,2-(dibromo)-2-dimethylvinylcyclopropane carboxylic acid (DBCA DBCA Dallas Business Committee for the Arts (Texas) DBCA Data Base Configuration Assistant ). Kuhn et al. (1999) demonstrated the relationship of chemical structures between common pyrethroids and their urinary metabolites. The limits of detection (LOD Lod (lōd), city (1994 pop. 51,200), central Israel. It is also known as Lydda. Its manufactures include paper products, chemicals, oil products, electronic equipment, processed food, and cigarettes. ) for the metabolites of pyrethroids insecticides are listed in Table 1. Data analysis. To analyze the data, we used the reported concentrations for samples with detectable (> LOD) or detectable but not quantifiable (< LOD) levels, whereas "0" was assigned for samples where nothing was detected. We calculated the daily volume-weighted average (DVWA) of pyrethroids metabolites by averaging the metabolite concentration in the morning sample with the previous day's bedtime sample normalized by the total volume of these two urine samples (Lu et al. 2006). In cases where only one of the two spot urine samples was collected, the metabolite concentration of the collected sample was used as the DVWA concentration. Urinary concentrations of pyrethroid metabolites were not adjusted by creatinine creatinine /cre·at·i·nine/ (kre-at´i-nin) an anhydride of creatine, the end product of phosphocreatine metabolism; measurements of its rate of urinary excretion are used as diagnostic indicators of kidney function and muscle mass. or specific gravity specific gravity, ratio of the weight of a given volume of a substance to the weight of an equal volume of some reference substance, or, equivalently, the ratio of the masses of equal volumes of the two substances. . Because the pyrethroid urinary metabolite concentrations were skewed skewed curve of a usually unimodal distribution with one tail drawn out more than the other and the median will lie above or below the mean. skewed Epidemiology adjective Referring to an asymmetrical distribution of a population or of data and subject to LODs, one-half of the LOD for each of the pyrethroid metabolites was added to all the respective measured urinary metabolite concentrations before log-transformation. Parametric tests were therefore used for statistical analyses using SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. (version 11; SPSS Inc., Chicago, IL). We used a linear mixed-effects model to test the associations with diet and self-reported residential use of pyrethroid pesticides, which represents the primary risk factors for children's exposure to pyrethroid pesticides. In addition, age was included in the expanded model to determine whether children's age also influenced pyrethroid exposure. Results The frequency of detection for the different urinary pyrethroid metabolites varied (Table 1). The most frequently detected pyrethroid metabolite was PBA, a 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. urinary metabolite for many pyrethroid insecticides (Heudorf and Angerer 2001) such as permethrin, cypermethrin, and deltamethrin, followed by trans- and cis-DCCA, two urinary metabolites for permethrin, cypermethrin, and cyfluthrin. Very few urine samples had detectable levels of FPBA and DBCA, specific metabolites for cyfluthrin and deltamethrin, respectively. Table 2 shows the descriptive statistics descriptive statistics see statistics. of the DVWA concentrations for the five urinary pyrethroid metabolites. In parallel to the frequency of detection, PBA has the highest median DVWA level, followed by trans-DCCA. Because most of the urine samples had nondetectable levels for cis-DCCA, FPBA, and DBCA, their data were not included in statistical analyses. The concentration ratios of cis- and trans-DCCA, which range from 0.3 to 0.6, correspond to the isomer isomer (ī`səmər), in chemistry, one of two or more compounds having the same molecular formula but different structures (arrangements of atoms in the molecule). Isomerism is the occurrence of such compounds. content of pyrethroid pesticides in most consumer products. For example, the content of permethrin in most commercial products contains either 1:3 or 2:3 of the cis- and trans-isomers. We could identify no apparent trend due to the dietary intervention, as was seen for OP pesticides (Lu et al. 2006), on visual inspection of the box plots of the DVWA pyrethroid metabolites in the 23 children during the 15-day study period. Many urine samples collected during the organic diet period continued to have detectable levels of all five pyrethroid metabolites. However, when we grouped the children by whether or not pyrethroids were used in their household, we found that children of families who used pyrethroids had higher and more variable DVWA PBA and trans-DCCA levels than did those not using pyrethroids at home (Figure 1A,B). Although detection of FPBA and DBCA in this cohort was rare and the levels were generally low, it is evident that most of these exposures were associated with residential use of pyrethroids (Figure 1C,D). Seven of the 23 families reported and were confirmed to use pyrethroid pesticides in their households, both inside and outside the homes (Table 3). Four of the seven families had an older child ([greater than or equal to] 8 years of age) who participated in this study. Urine samples collected from these seven children routinely contained detectable pyrethroid metabolite levels, and among those urine samples, several had the highest concentrations of pyrethroid metabolites. Most detectable FPBA and all the detectable DBCA levels in urine samples were collected from these seven children. Results from the linear mixed-effects model (Table 4) demonstrated that both residential pyrethroid use and diet are significant contributors to both PBA and trans-DCCA levels in the urine. It is evident from this model that the effect of self-reported residential pyrethroid use is more important than that of diet. Two separate one-way analyses of variance (ANOVAs) analyzing PBA and trans-DCCA data individually for diet or residential use of pyrethroids (Table 5) indicated that the median DVWA PBA and trans-DCCA levels are significantly higher in children whose parents reported use of pyrethroids at home than in those who did not (Figure 2A), and significantly higher during the conventional diet days than during the organic diet days (Figure 2B). The results from the expanded linear mixed-effects model suggested that, in addition to diet and residential pyrethroid use, children's age is also a significant predictor of PBA and trans-DCCA levels in the urine (Table 6). The median DVWA PBA and trans-DCCA levels are significantly higher in older children (8-11 years of age) than in younger children (3-7 years of age) (Figure 2C). Discussion Despite the wide use of pyrethroid pesticides, the assessment of pyrethroid pesticide exposure in the U.S. population, particularly for children, is limited to a handful of cross-sectional studies 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. . This report consists of data collected as part of the ongoing CPES with a focus on children's exposure to pyrethroid pesticides. This longitudinal data set provides a more complete documentation of children's exposure to pyrethroids and examines potential risk factors for higher exposure levels. The most significant finding of this study--the association between self-reported pyrethroids use in the residential environment by the parents and the elevated pyrethroid metabolite levels found in their children's urine--is important for both children's pesticide exposure assessment and environmental public health. Interventions could focus on minimizing the use of pyrethroids in the residential environment or eliminating the possible contact with treated areas or objects by children. This finding is consistent with those of a previous report suggesting that children whose parents reported residential OP pesticide use had higher OP urinary metabolite concentrations (Lu et al. 2001). Although changing children's diets from conventional to organic food also lowers their exposures to pyrethroid pesticides, the effect of such dietary intervention is not as dramatic for pyrethroid pesticides as it is for OP pesticides (Lu et al. 2006). This pattern is in agreement with the general theory that children are exposed continuously to low levels of pesticides through their diets and that this chronic exposure is modified, usually increased, by episodes of relatively high exposures from other pathways, such as residential use (Shurdut et al. 1998). We conclude that residential pesticide use represents a very important risk factor for children's exposure to pyrethroid insecticides. This conclusion is supported by the fact that only seven of the 23 families reported residential pyrethroid use, yet such use accounted for more of the variability in the urinary pyrethroid metabolites than did the dietary intervention. The results from the mixed-effects model indicated that residential use of pyrethroids remains a more significant predictor of both urinary PBA and trans-DCCA when different diets were taken into account. The data presented in Table 3 clearly demonstrate that children who lived in households where pyrethroids have been used for pest control pest control n → control m de plagas pest control n → lutte f contre les nuisibles pest control pest n purposes have experienced much higher pyrethroid exposures than those whose parents reported no pyrethroid use in their homes. Four of the five highest pyrethroid metabolite levels were found in these seven children. An extreme case was that of a 4-year-old child whose parents used permethrin on the furniture, including beds. Several urine samples collected from this participant have the highest DVWA PBA and cis- and trans-DCCA levels. Other children who lived in homes where pyrethroids were used were continuously exposed to this group of insecticides throughout the 15-day study period. Notably, our pesticide use survey asked whether pesticides are used in and around the home and, if so, when the last application occurred. Thus the continuous exposure to these pesticides throughout the 15-day study period likely reflects residual sources. Children were also exposed to pyrethroids through diets, although the magnitude was smaller than the residential exposure. Results from studies conducted in Germany have suggested that exposure to pyrethroids in the general population is caused by uptake with the diet (Heudorf and Angerer 2001; Schettgen et al. 2002); however, no direct evidence was provided to support this conclusion. In our study, all five of the measured pyrethroid metabolites were found during the organic diet period, including the two least frequently detected metabolites, FPBA and DBCA, specific metabolites for cyfluthrin and deltamethrin, respectively. Accordingly, most of the children's exposures to pyrethroid metabolites are likely to have come from the environment. In this study, age is a significant predictor for pyrethroid exposure. We found that older children, 8-11 years of age, experienced higher pyrethroid exposures than did children 3-7 years of age. This finding is not consistent with results from other studies, which suggest that younger children tend to have higher pesticide exposure than older children. Younger children are more vulnerable to adverse health risks resulting from pesticide exposures because of the difference in their physiologic functions relative to older children and adults. However, it is difficult to draw an absolute conclusion that younger children have higher pesticide exposures, particularly exposures from residential environment, than older children. Although common characteristics of young children, such as hand-to-mouth behaviors and close proximity to the floor, put them at higher risk of pesticide exposure, it is the pesticide residues found in the environment that serve as the prerequisite for exposure and the subsequent oral 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. . In this study, we identified residential use as the primary source of the children's pyrethroid exposure; however, this risk factor itself does not explain the age effect because age accounts for more variability in urinary metabolites than does residential use in the expanded mixed-effects model. One plausible explanation for this finding is that, as reported by their parents, many older children in this study were engaged in outside sports activities, such as swimming or playing tennis, in a neighborhood country club and parks during this sampling period. Pyrethroids used in those facilities may have led to increased pyrethroid exposure. With the regulation change that led to the restricted use of OP pesticides in residential environments (U.S. EPA 1998), previously we were able to demonstrate that children are exposed to OP pesticides exclusively from their diets (Lu et al. 2006). Because fewer regulatory restrictions are imposed on the pyrethroid use, results from this study suggest that this same group of children are simultaneously exposed to pyrethroids via dietary intake and from their residential environments. Such diverse exposure patterns among children may pose a challenge for regulating pyrethroid insecticides as a group under the Food Quality Protection Act of 1996, which mandates the assessment of exposure in an aggregate manner. The implementation of the Food Quality Protection Act (1996) for pyrethroids could be even more problematic because of the difficulties of assessing cumulative risks resulting from pyrethroid exposures. Unlike OP or carbamate carbamate /car·ba·mate/ (kahr´bah-mat) any ester of carbamic acid. car·ba·mate n. A salt or ester of carbamic acid. pesticides, pyrethroids do not appear to exhibit a single common toxicologic mechanism in humans. Besides the limitations associated with this study that were discussed previously (Lu et al. 2006), the lack of environmental measures for pyrethroids makes it difficult to confirm the association between children's exposure to pyrethroids and their residential use. Systematic quantification of pyrethroids and other nonpersistent non·per·sis·tent adj. Having a short life or existence under natural conditions. pesticides, such as OP, in the environment, via soil, house dust, surface wipe, or personal breathing air collection, remains a daunting daunt tr.v. daunt·ed, daunt·ing, daunts To abate the courage of; discourage. See Synonyms at dismay. [Middle English daunten, from Old French danter, from Latin task. Substantial numbers of samples are needed to minimize the spatial and temporal variations, which is commonly associated with the measurements of nonpersistent pesticide exposures (Lu et al. 2004). The cost for analyzing such large numbers of environmental samples would compromise other aspects of a study with a limited research budget, such as reducing the number of participants or collecting less frequent biologic samples. Conclusion We report the results from the first study of urban/suburban children's longitudinal exposure to pyrethroid pesticides. In this study we found elevated urinary levels of pyrethroid metabolites associated with both residential pyrethroid use and diets. Pyrethroid use in the residential environment is a particular concern not only because exposures were routinely measured during the days when children consumed an organic diet but also because urine samples collected from this subgroup sub·group n. 1. A distinct group within a group; a subdivision of a group. 2. A subordinate group. 3. Mathematics A group that is a subset of a group. tr.v. of children contained the highest levels of four pyrethroid metabolites. 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Developmental 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 pyrethroid insecticides: critical review and future research needs. Environ Health Perspect 113:123-136. Shurdut BA, Barraj L, Francis M. 1998. Aggregate exposures under the Food Quality Protection Act: an approach using chlorpyrifos. Regul Toxicol Pharmacol 28:165-177. USDA. 2005. Pesticide Data Program. Washington, DC:U.S. Department of Agriculture. Available: http://www.ams. usda.gov/science/pdp [accessed 15 May 2005]. U.S. EPA. 2006. Permethrin Facts. Washington, DC:U.S. Environmental Protection Agency. Available: http://www.epa.gov/oppsrrd1/REDs/factsheets/permethrin_fs.htm [accessed 10 July 2006]. U.S. EPA. 1998. Children's Vulnerability to Toxic Substances in the Environment. EPA600/F/98/013. Washington, DC:U.S. Environmental Protection Agency. U.S. EPA. 2005. Synthetic Pyrethroids for Insect Control. Washington, DC:U.S. Environmental Protection Agency. Available: http://www.epa.gov/pesticides/factsheets/pyrethroids4mosquitos.htm#pyrethroids. [accessed 8 November 2005]. Chensheng Lu, (1) Dana B. Barr, (2) Melanie Pearson Melanie Pearson (previously Mangel) was a fictional character in the Australian soap opera Neighbours, played by Lucinda Cowden. She first appeared in 1987, then in 1988 and became a regular on the series in 1989 up until the character's departure in 1991. , (1) Scott Bartell, (1) and Roberto Bravo (2) (1) Department of Environmental and Occupational Health, Rollins School of Public Health The Rollins School of Public Health (RSPH) is the public health school of Emory University. Founded in 1990, RSPH has more than 850 students pursuing master's degrees (MPH/MSPH) and over 100 students pursuing doctorate degrees (PhD). , Emory University Emory University (ĕm`ərē), near Atlanta, Ga.; coeducational; United Methodist; chartered as Emory College 1836, opened 1837 at Oxford. It became Emory Univ. in 1915 and in 1919 moved to Atlanta. , Atlanta, Georgia, USA; (2) National Center for Environmental Health, Centers for Disease Control and Prevention, Atlanta, Georgia, USA Address correspondence to C. Lu, 1518 Clifton Rd. NE, Atlanta, GA 30322 USA. Telephone: (404) 727-2131. Fax: (404) 727-8744. E-mail: clu2@sph.emory.edu We express our sincere appreciation to the children who participated and to their parents who greatly assisted in this study. We also thank R. Irish, K. Toepel, and P. Sande for their assistance in conducting this study, and A. Bishop, P. Restrepo, R. Walker, J. Nguyen, and D. Walden at the National Center for Environmental Health (NCEH NCEH National Center for Environmental Health (US CDC) ) in the Centers for Disease Control and Prevention (CDC) for their help with sample analysis. This study was supported by the U.S. Environmental Protection Agency (EPA), Science to Achieve Results (STAR) program (RD-829364), and the NCEH, CDC. Its contents are solely the responsibility of the authors and do not necessarily represent the official view of the U.S. EPA or CDC. The authors declare they have no competing financial interests. Received 26 January 2006; accepted 26 April 2006.
Table 1. LODs and the number of urine samples [no. (%)] above or below
the LODs for five common pyrethroid metabolites for 724 urine samples
collected from 23 children for a 15-day study period.
PBA FPBA cis-DCCA trans-DCCA DBCA
Detected 596 (82) 15 (2) 252 (35) 517 (71) 14 (2)
< LOD 23 (3) 41 (6) 22 (3) 50 (7) 15 (2)
Nondetected 105 (15) 668 (92) 450 (62) 157 (22) 695 (96)
LOD ([micro]g/L) 0.1 0.2 0.2 0.4 0.1
Table 2. Descriptive statistics of DVWA concentrations ([micro]g/L) of
pyrethroid insecticide metabolites for 724 urine samples collected from
23 children for a 15-day study period.
PBA FPBA cis-DCCA
Mean [+ or -] SD 1.22 [+ or -] 2.4 0.02 [+ or -] 0.2 0.33 [+ or -]
1
Median 0.45 0 0
Geometric mean 0.58 0.08 0.4
Range (0-25) (0-3.5) (0-15)
Percentiles
10th 0.01 0 0
25th 0.22 0 0
75th 0.97 0 0.33
90th 2.85 0.05 0.90
trans-DCCA DBCA
Mean [+ or -] SD 1.24 [+ or -] 2.6 0.004 [+ or -] 0.02
Median 0.38 0
Geometric mean 0.54 0.05
Range (0-25) (0-0.1)
Percentiles
10th 0 0
25th 0.14 0
75th 0.99 0
90th 3.37 0
Table 3. Self-reported use of pyrethroid pesticides in the households by
the parents, and the number of days in which the metabolite
concentrations of pyrethroid pesticides in their children's urine
samples exceeded the median DVWA levels for the respective pyrethroid
metabolites.
Child's age Location
(years) Pyrethroids used of use
10 Ortho/carpenter ants (permethrin) Home
8 Green light (permethrin/other pyrethroids) Garden
7 Terminix (permethrin) Crawl space
6 Pyrethroids E.C. (deltamethrin) Deck
8 Hot Shot fogger (tetramethrin/permethrin) Home
4 RID (furniture/bedding) (permethrin) Beds
11 Hartz (pyrethrin piperonyl butoxide) Carpet
RID (pyrethrin) Dog
Hartz control (allethrin) Cat
Child's age No. of days DVWA exceeded the median level (a)
(years) PBA FPBA cis-DCCA trans-DCCA DBCA (b)
10 3 8 1 2 0
8 15 4 7 15 11 (c)
7 10 1 3 9 3 (c)
6 5 0 1 5 0
8 16 2 16 16 0
4 7 (c) 1 6 (c) 6 (c) 0
11 16 1 16 16 2 (c)
(a) Each child has a total of 16 days of DVWA concentration for each of
the pyrethroid metabolites. Median levels for the DVWA concentration of
five pyrethroid metabolites are given in Table 2. (b) All urine samples
with detectable levels were collected from children listed in this
table. (c) One urine sample has the highest level of the respective
pyrethroid metabolite among the 724 urine samples collected.
Table 4. Selected SPSS results of a linear mixed-effects model for the
DVWA of PBA and trans-DCCA concentrations ([micro]g/L) in 23 children's
urine samples collected over a 15-day study period.
PBA
Sum of Mean F-value
Source df squares square (Pr > F) (b)
Residential 1 9.6 9.6 19.6
pyrethroids use (< 0.001)
Diets 1 2.0 2.0 4.0
(0.047)
Error 356 175.4 0.5
trans-DCCA
Sum of Mean F-value
Source squares square (Pr > F)
Residential 5.4 5.4 15.4
pyrethroids use (< 0.001)
Diets 1.9 1.9 5.4
(0.021)
Error 124.8 0.4
Abbreviations: df, degrees of freedom; Pr, probability.
Table 5. DVWA concentrations of PBA and trans-DCCA in urine samples of
23 children over a 15-day study period, compared by diets, residential
pyrethroids use, and age.
PBA trans-DCCA
Source Mean (median) Mean (median)
Diet
Conventional 1.24 (0.49)* 1.25 (0.42)**
Organic 1.16 (0.36)* 1.21 (0.28)**
Residential pyrethroids use
No 0.94 (0.39) (#) 0.94 (0.35) (#)
Yes 1.84 (0.6) (#) 1.91 (0.57) (#)
Age (years)
3-7 0.69 (0.37) (#) 0.66 (0.35) (#)
8-11 1.91 (0.86) (#) 1.99 (0.72) (#)
*Significantly different (one-way ANOVA, p = 0.023).
**Significantly different (one-way ANOVA, p = 0.008).
(#) Significantly different (one-way ANOVA, p < 0.001).
Table 6. Selected SPSS results of an expanded linear mixed-effects model
for the DVWA of PBA and trans-DCCA concentrations ([micro]g/L) in 23
children's urine samples collected over a 15-day study period.
PBA
Sum of Mean F-value
Source df squares square (Pr > F)
Residential pyrethroids use 1 4.6 4.6 10.5
(0.001)
Diets 1 1.8 1.8 4.2
(0.04)
Age (years) 1 18 18 40.9
(< 0.001)
Error 352 155.1 0.4
trans-DCCA
Sum of Mean F-value
Source squares square (Pr > F)
Residential pyrethroids use 2.5 2.5 7.9
(0.005)
Diets 1.9 1.9 5.9
(0.016)
Age (years) 11.7 11.7 36.7
(< 0.001)
Error 112.7 0.3
Abbreviations: df, degrees of freedom; Pr, probability.
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