Evaluation of exposure to arsenic in residential soil.In response to concerns regarding arsenic arsenic (är`sənĭk), a semimetallic chemical element; symbol As; at. no. 33; at. wt. 74.9216; m.p. 817°C; (at 28 atmospheres pressure); sublimation point 613°C;; sp. gr. (stable form) 5.73; valence −3, 0, +3, or +5. in soil from a 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. manufacturing plant, we conducted a biomonitoring study on children younger than 7 years of age, the age category of children most exposed to soil. Urine samples from 77 children (47% participation rate) were analyzed an·a·lyze tr.v. an·a·lyzed, an·a·lyz·ing, an·a·lyz·es 1. To examine methodically by separating into parts and studying their interrelations. 2. Chemistry To make a chemical analysis of. 3. for total arsenic and arsenic species related to ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. of inorganic inorganic /in·or·gan·ic/ (in?or-gan´ik) 1. having no organs. 2. not of organic origin. in·or·gan·ic n. 1. arsenic. Older individuals also provided urine (n = 362) and toenail toenail /toe·nail/ (to´nal) the nail on any of the digits of the foot. ingrown toenail see under nail. toe·nail n. (n = 67) samples. Speciated urinary urinary /uri·nary/ (u´ri-nar?e) pertaining to, containing, or secreting urine. u·ri·nar·y adj. 1. Relating to urine and its production, function, or excretion. 2. arsenic levels were similar between children (geometric mean (mathematics) geometric mean - The Nth root of the product of N numbers. If each number in a list of numbers was replaced with their geometric mean, then multiplying them all together would still give the same result. , geometric SD, and range: 4.0, 2.2, and 0.89-17.7 [micro]g/L, respectively) and older participants (3.8, 1.9, 0.91-19.9 [micro]g/L) and consistent with unexposed populations. Toenail samples were < 1 mg/kg. Correlations between speciated urinary arsenic and arsenic in soil (r = 0.137, p = 0.39; n = 41) or house dust (r = 0.049, p = 0.73; n = 52) were not significant for children. Similarly, questionnaire responses indicating soil exposure were not associated with increased urinary arsenic levels. Relatively low soil arsenic exposure likely precluded quantification of arsenic exposure above background. Key words: arsenic, biomonitoring, exposure, soil, urine. Environ en·vi·ron tr.v. en·vi·roned, en·vi·ron·ing, en·vi·rons To encircle; surround. See Synonyms at surround. [Middle English envirounen, from Old French environner Health Perspect 113:1735-1740 (2005). doi:10.1289/ehp.8178 available via http://dx.doi.org/[Online 17 August 2005] ********** Arsenic occurs naturally in the environment, and inorganic forms are of greatest health concern [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 (ATSDR ATSDR Agency for Toxic Substances & Disease Registry ) 2000]. Arsenic in soil has been the focus of regulatory action at sites 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. for which health risk assessments are used to guide decisions on soil cleanup. Communication of risk assessment results, however, may lead people to believe that their cancer risk is substantial and to desire medical tests. Biomonitoring is typically offered to indicate whether exposures, and presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. risks, are above background (ATSDR 2000). In a small U.S. community in New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of State (Middleport), historical pesticide manufacture was associated with arsenic in soil [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 (U.S. EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ) 2002b]. Soil sampling and remediation initially focused on the plant site (FMC See fixed mobile convergence. Corporation), adjacent school property, and drainage ditches and creeks that received surface water flow from the plant. Several residential properties near the plant site or along drainages also had arsenic soil levels in excess of the state cleanup level of 20 mg/kg. Health risks from soil were of concern to the local regulatory agency regulatory agency Independent government commission charged by the legislature with setting and enforcing standards for specific industries in the private sector. The concept was invented by the U.S. and the community. At the request of community representatives, we conducted an exposure study that focused on young children for arsenic biomonitoring and primary analyses of soil arsenic exposure. Preschool-age children are considered the most exposed age group for chemicals in soil (Polissar et al. 1990; U.S. EPA 2002a). Materials and Methods In the summer and fall of 2003, Middleport residents were offered sampling of urine, toenails, soil, house dust, and homegrown home·grown adj. 1. Raised or grown at home. 2. Originating in or characteristic of a locality: "Rock is homegrown music in the United States, evolved from blues and country and Tin Pan Alley" produce, but not 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. because the community is supplied by a water district [< 5 [micro]g/L arsenic; Niagara County Water District (NCWD NCWD North Carolina Western District (US federal court system) NCWD National Center for Women Development (Nigeria) ) 2004; U.S. EPA 2002b]. Study population. Recruitment focused on young children (i.e., < 7 years of age), although residents of all ages were informed of the study and allowed to participate. In addition to community meetings, notices, and mailings, all houses in the study area were systematically visited for census and recruitment. Repeated attempts were made as needed as needed prn. See prn order. , especially for houses with evidence of children (according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. neighbors, town clerk, presence of toys, etc.). Participation required review of study information, written consent, and completion of a questionnaire on demographic, socioeconomic so·ci·o·ec·o·nom·ic adj. Of or involving both social and economic factors. socioeconomic Adjective of or involving economic and social factors Adj. 1. , and behavioral information and housing characteristics. At the time of urine collection, participants (or parents) completed a questionnaire of dietary habits, activities, conditions, and behaviors potentially related to arsenic exposure. Biomarkers. Urine. Participants provided two first-morning-void urine samples on consecutive days between 1 August and 13 September. Participants were asked not to eat seafood seafood Edible aquatic animals excluding mammals, but including both freshwater and ocean creatures. Seafood includes bony and cartilaginous fishes, crustaceans, mollusks, edible jellyfish, sea turtles, frogs, sea urchins, and sea cucumbers. for 3 days before sampling. Participants received urine collection kits (including pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. urine bags for nontoilet-trained children) the day before collection. After collection, urine samples were stored on frozen gel packs or 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. before delivery to Lockport Memorial Hospital laboratory (Lockport, NY) for measurement of 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. analysis by colorimetric col·or·im·e·ter n. 1. Any of various instruments used to determine or specify colors, as by comparison with spectroscopic or visual standards. 2. method (values for the two first-morning-void samples were averaged). Samples were then shipped on frozen gel packs by courier to Battelle Marine Sciences Laboratory (Sequim, WA) and frozen until arsenic analysis. Quality assurance procedures were followed for all phases of data collection for urine and other samples. Battelle Marine Sciences Laboratory analyzed composite urine samples (10 mL from each daily sample) for total arsenic by inductively in·duc·tive adj. 1. Of, relating to, or using logical induction: inductive reasoning. 2. Electricity Of or arising from inductance: inductive reactance. coupled plasma-mass spectrometry spectrometry /spec·trom·e·try/ (spek-trom´e-tre) determination of the wavelengths or frequencies of the lines in a spectrum. spec·trom·e·try n. (ICP-MS ICP-MS Inductively Coupled Plasma Mass Spectroscopy ) (U.S. EPA 1996a) with a method detection limit of 0.2 [micro]g/L. After further acidification acidification a technology used by processors to preserve foods by adding acids (such as acetic, citric, phosphoric, propionic and lactic acid) and thereby reduce the risk of growth of harmful bacteria. of diluted di·lute tr.v. di·lut·ed, di·lut·ing, di·lutes 1. To make thinner or less concentrated by adding a liquid such as water. 2. To lessen the force, strength, purity, or brilliance of, especially by admixture. samples with hydrochloric acid hydrochloric acid: see hydrogen chloride. hydrochloric acid or muriatic acid Solution in water of hydrogen chloride (HCl), a gaseous inorganic compound. to pH < 2 and reduction with sodium borohydride Sodium borohydride, also known as sodium tetrahydroborate, has the chemical formula NaBH4. This white solid, usually encountered as a powder, is a specialty reducing agent used in the manufacture of pharmaceuticals and other organic and inorganic compounds. , arsenic species (i.e., those related to ingestion and metabolism of inorganic arsenic) were trapped on a chromatography column Noun 1. chromatography column - a vertical glass tube used in column chromatography; a mixture is poured in the top and washed through a stationary substance where components of the mixture are adsorbed selectively to form colored bands column and analyzed with hydride hydride Any of a class of compounds in which hydrogen is combined with another element. There are three basic types of hydrides: saline, metallic, and covalent. Saline hydrides, such as sodium hydride (NaH) and calcium hydride (CaH2 generation atomic absorption spectroscopy In analytical chemistry, Atomic absorption spectroscopy is a technique for determining the concentration of a particular metal element in a sample. Atomic absorption spectroscopy can be used to analyse the concentration of over 62 different metals in a solution. (U.S. EPA 1996b). Target method detection limits for arsenic species--inorganic arsenic, monomethylarsonic acid (MMA (Microcomputer Managers Association, Inc.) A membership organization with chapters throughout the U.S. that was devoted to educating personnel responsible for personal computers. It disbanded in 1996. Mma - A fast Mathematica-like system, in Allegro CL by R. Fateman, 1991. ), and dimethylarsinic acid (DMA (1) (Digital Media Adapter) See digital media hub. (2) (Document Management Alliance) A specification that provides a common interface for accessing and searching document databases. )--were 0.06, 0.4, and 0.08 [micro]g/L, respectively, with some estimated MMA and DMA values below these limits. In statistical analyses, undetected arsenic species in urine were conservatively assigned a level of 0.25 [micro]g/L (half the method reporting limit). In addition to analysis of standard quality control samples, 1 in 20 samples was analyzed by the U.S. 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 ) Inorganic Toxicology toxicology, study of poisons, or toxins, from the standpoint of detection, isolation, identification, and determination of their effects on the human body. Toxicology may be considered the branch of pharmacology devoted to the study of the poisonous effects of drugs. Laboratory (Atlanta, GA) for total arsenic, inorganic arsenic, MMA, DMA, arsenobetaine (AsB), trimethylarsine oxide, and arsenocholine (detection limits of 1.2, 1.0, 0.9, 1.7, 0.4, 1.0, and 0.6 [micro]g/L, respectively). The latter two arsenic forms were not detected. AsB, an organic arsenic form in foods such as fish, was detected by the CDC in most of the 24 split samples. The results of both laboratories were highly correlated cor·re·late v. cor·re·lat·ed, cor·re·lat·ing, cor·re·lates v.tr. 1. To put or bring into causal, complementary, parallel, or reciprocal relation. 2. for total arsenic ([R.sup.2] = 0.99; CDC = Battelle x 1.1 - 5.58) and reasonably correlated for speciated arsenic ([R.sup.2] = 0.67; CDC = Battelle x 0.68 + 2.96), given the differences in analytical techniques An analytical technique is a method that is used to determine the concentration of a chemical compound or chemical element. There are a wide variety of techniques used for analysis, from simple weighing (gravimetric) to titrations (titrimetric)to very advanced techniques using and detection limits. Toenails. Participants were informed that a condition of toenail sampling was wearing shoes outdoors for a month before collection. Those requesting sampling were given collection materials. Because of the time required to collect a sufficient sample (0.5 g requested), toenail samples were received from late August through October. Samples were scored for visible dirt/discoloration from 1 (clean) to 4 (all clippings dirty/discolored). Of the 84 samples submitted, 67 (none from young children) had sufficient mass for analysis (0.05 g). Toenail samples prepared according to Karagas et al. (2000) (nail polish removed with acetone acetone (ăs`ĭtōn), dimethyl ketone (dīmĕth`əl kē`tōn), or 2-propanone (prō`pənōn), CH3COCH3 , if necessary; sonicated in deionized water Deionized water (DI water or de-ionized water; also spelled deionised water, see spelling differences) is water that lacks ions, such as cations from sodium, calcium, iron, copper and anions such as chloride and bromide. for 10 min; rinsed in deionized water) were acid digested and analyzed by ICP-MS using Method 6020 (method detection limit = 0.02 mg/kg; U.S. EPA 1986). Environmental samples. Soil. Geomatrix Inc. (Amherst, NY) collected composite soil samples for yard, play area, and garden areas within properties using an approach similar to that of Hwang et al. (1997a). Yard soil composites included subsamples from randomly selected locations (at least 3 m apart) within each of a minimum of four representative sectors and two to six additional composite samples for yard areas > 1,000 [m.sup.2]. Low areas near drainages were sampled as a separate composite. Play area composites included a minimum of four subsamples with an additional subsample sub·sam·ple n. A sample drawn from a larger sample. tr.v. sub·sam·pled, sub·sam·pling, sub·sam·ples To take a subsample from (a larger sample). for every 59 [m.sup.2] in excess of 230 [m.sup.2]. Yard and play area soil was sampled at a 0-7.6 cm (0-3 in.) depth below any vegetative vegetative /veg·e·ta·tive/ (vej?e-ta?tiv) 1. of, pertaining to, or characteristic of plants. 2. concerned with growth and nutrition, as opposed to reproduction. 3. cover. Vegetable garden soil was collected as separate composites at 0-15 cm (0-6 in.) and 0-30 cm (0-12 in.) depths within each vegetable garden, with additional locations sampled for every 2.3 [m.sup.2] of area. Soil samples and standard field control samples were analyzed by H2M Laboratories (Melville, NY) for total arsenic using trace ICP-atomic emission spectroscopy Emission spectroscopy is a spectroscopic technique which examines the wavelengths of photons emitted by atoms or molecules during their transition from an excited state to a lower energy state. using Methods 3050B/6010B (U.S. EPA 1986), with a targeted quantitation limit of 1 mg/kg. Field and laboratory quality control samples were within standard accuracy and precision limit goals. In addition to the 77 families who consented to soil sampling, soil data from discrete sample locations were available for eight additional properties (none with children < age 7) sampled during the site remedial REMEDIAL. That which affords a remedy; as, a remedial statute, or one which is made to supply some defects or abridge some superfluities of the common law. 1 131. Com. 86. The term remedial statute is also applied to those acts which give a new remedy. Esp. Pen. Act. 1. investigation. Discrete samples within a property were averaged. Soil arsenic data within properties were evaluated as arithmetic mean (mathematics) arithmetic mean - The mean of a list of N numbers calculated by dividing their sum by N. The arithmetic mean is appropriate for sets of numbers that are added together or that form an arithmetic series. arsenic level of 0-6 in. depth in the garden, play area, and yard samples and maximum arsenic level among these areas. House dust. Sandler Occupational Medicine Associates Inc. (Gaithersburg, MD) sampled house dust between 3 September and 11 December. Residents were instructed not to sweep or vacuum the week before sampling. Although approximately half did not comply with this request, lack of compliance did not affect house dust results. Based on methods of Hwang et al. (1997a) and Que Hee et al. (1985), dust samples were collected with a vacuum pump Vacuum pump A device that reduces the pressure of a gas (usually air) in a container. When gas in a closed container is lowered from atmospheric pressure, the operation constitutes an increase in vacuum in this container. through tubing into a cassette with a 0.8 [micro]m filter at 2.5 L/min. A composite sample (0.5 g minimum) was obtained using a 625 [cm.sup.2] template in at least three locations: the most used entrance, most frequently occupied room (living room, kitchen, or family room), and child's bedroom. H2M Laboratories analyzed filters for arsenic (same methods as for soil). Produce. Homegrown produce was sampled in August and early September as a service to residents, not as a comprehensive survey. Battelle Marine Sciences Laboratory freeze-dried and ball-milled samples, digested approximately 0.5 g in 2 M sodium hydroxide sodium hydroxide, chemical compound, NaOH, a white crystalline substance that readily absorbs carbon dioxide and moisture from the air. It is very soluble in water, alcohol, and glycerin. It is a caustic and a strong base (see acids and bases). at 80[degrees]C for about 16 hr, and analyzed for total arsenic (ICP-MS; target method detection limit = 0.062 mg/kg, dry weight). Data analysis. The outcome measure of primary interest (dependent variable) was speciated arsenic in urine (i.e., sum of inorganic arsenic, MMA, and DMA). Exposure measures of primary interest (independent variables) were soil and house dust arsenic data. Other potential sources of arsenic exposure (e.g., diet), mediators of soil exposure (e.g., mouthing behaviors), and other covariates were ascertained through the questionnaire responses. Data were analyzed using the statistical software 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. for Windows (version 7.0; SPSS, Chicago, IL) and Microsoft Excel (tool) Microsoft Excel - A spreadsheet program from Microsoft, part of their Microsoft Office suite of productivity tools for Microsoft Windows and Macintosh. Excel is probably the most widely used spreadsheet in the world. Latest version: Excel 97, as of 1997-01-14. (Microsoft Corporation (company) Microsoft Corporation - The biggest supplier of operating systems and other software for IBM PC compatibles. Software products include MS-DOS, Microsoft Windows, Windows NT, Microsoft Access, LAN Manager, MS Client, SQL Server, Open Data Base Connectivity (ODBC), MS Mail, , Redmond, WA). Variables with little variation were excluded from the inferential in·fer·en·tial adj. 1. Of, relating to, or involving inference. 2. Derived or capable of being derived by inference. in analyses (except for those of interest, e.g., playing in creeks), and some categories were collapsed because of sparse sparse - A sparse matrix (or vector, or array) is one in which most of the elements are zero. If storage space is more important than access speed, it may be preferable to store a sparse matrix as a list of (index, value) pairs or use some kind of hash scheme or associative memory. numbers. Environmental and 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. data were log transformed based on their distribution (Hwang et al. 1997a). The log-transformed distributions were not significantly different from a normal distribution, except for speciated urinary arsenic, for which log transformation improved the fit with respect to normality normality, in chemistry: see concentration. (change in p-value from 0.007 to 0.013; Kolmogorov-Smirnov test In statistics, the Kolmogorov–Smirnov test (often called the K-S test) is used to determine whether two underlying one-dimensional probability distributions differ, or whether an underlying probability distribution differs from a hypothesized distribution, in either of normality). We estimated simple bivariate bi·var·i·ate adj. Mathematics Having two variables: bivariate binomial distribution. Adj. 1. Pearson correlation coefficients Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: among the dependent variable, exposure variables of primary interest, and continuous variables derived from the questionnaires. Analysis of variance and t-tests were conducted, where applicable, to evaluate associations between the primary outcome and independent variables and other variables derived from the questionnaires. Linearity of relationships was examined visually before conducting regression analyses. Age-adjusted regression models that included speciated arsenic in urine with each of the environmental variables (i.e., soil and house dust arsenic levels) were run to identify a "base" model from which to build multiple regression Multiple regression The estimated relationship between a dependent variable and more than one explanatory variable. models (including dependent and independent variables In mathematics, an independent variable is any of the arguments, i.e. "inputs", to a function. These are contrasted with the dependent variable, which is the value, i.e. the "output", of the function. that appeared to best characterize the exposure-outcome association). To be conservative, variables with p < 0.15 in the age-adjusted models were included. To evaluate possible nonindependence of subjects within families, analyses were also conducted using one randomly selected subject per family. Because both analyses yielded similar results, all subject samples were treated as independent samples regardless of household. Results Community and participant demographics The attributes of people in a particular geographic area. Used for marketing purposes, population, ethnic origins, religion, spoken language, income and age range are examples of demographic data. . Of the 826 households in the study area, 39 were vacant, and 55 could not be contacted but had no evidence of children. These 55 homes (mostly apartments) were assumed to have one adult resident of unknown age (average of vacant or one or two persons). Census results and the study population were generally similar to 2000 U.S. Census data (U.S. Census Bureau Noun 1. Census Bureau - the bureau of the Commerce Department responsible for taking the census; provides demographic information and analyses about the population of the United States Bureau of the Census 2000) for Middleport (Table 1). Although the study area included outlying out·ly·ing adj. Relatively distant or remote from a center or middle: outlying regions. outlying Adjective far away from the main area Adj. 1. areas, the study area population outside Middleport was low. Forty-seven percent of children younger than 7 years of age, 48% of children younger than 13 years, and 23% of all ages of the study area population participated in urine sampling (Table 1). Soil and house dust samples were collected for 58 and 73%, respectively, of participating children younger than 7 years of age. Sampling for urinary arsenic, house dust, and soil was reasonably representative across ages (data for children shown in Figure 1). House dust and soil arsenic values were also relatively evenly distributed over age with no apparent interactions. Urine. Speciated arsenic levels in the urine were < 20 [micro]g/L and not significantly different between young children and older participants (Table 2). The geographic distribution of the speciated urine data showed little relation to the FMC Corporation facility or historical drainage from the plant (Figure 2A). By comparison, higher soil arsenic concentrations tended to be located near the plant site and along drainages to the east and north (Figure 2B). Toenails. Toenail samples were < 1 mg/kg [geometric mean (GM) = 0.13 mg/kg; geometric SD (GSD GSD German Shepherd Dog GSD Graduate School of Design GSD Glycogen Storage Disease GSD General Services Division GSD Gundam Seed Destiny (anime) GSD Ground Sample Distance GSD Geometric Standard Deviation ) = 2.53 mg/kg; range = 0.02-0.97 mg/kg], despite evidence of surface contamination. Toenail arsenic levels increased about 75% per unit increase in discoloration dis·col·or·a·tion n. 1. a. The act of discoloring. b. The condition of being discolored. 2. A discolored spot, smudge, or area; a stain. Noun 1. score ([R.sup.2] = 0.205, p = 0.0001) and were not correlated with speciated arsenic in urine. Soil and house dust. Arsenic levels in soil averaged (GM) approximately 20 mg/kg and were < 100 mg/kg except for a few discrete samples from the properties sampled during the remedial investigation (Table 3). The highest maximum (1,124 mg/kg) and average (340 mg/kg) sample values were from the same property. The second highest maximum and average sample values were 103 mg/kg and 69 mg/kg, respectively. Of the 111 households consenting to house dust sampling, 70 also had soil samples taken. The contribution of arsenic in soil to arsenic in house dust appears to be low and could not be quantified. Arsenic concentrations in house dust were generally lower than in soil (Table 3). Arsenic concentration or surface loading Sur´face load`ing 1. (Aëronautics) The weight supported per square unit of surface; the quotient obtained by dividing the gross weight, in pounds, of a fully loaded flying machine, by the total area, in square feet, of its supporting surface. in house dust was not correlated with average or maximum soil concentration for properties with children younger than 7 years of age or for all properties sampled. Produce. Twenty-five types of produce from 42 gardens had arsenic concentrations < 0.6 mg/kg (wet weight). Tomatoes, the most prevalent crop (37 gardens), had arsenic concentrations near or below the limit of detection ([less than or equal to] 0.010 mg/kg). Small sample sizes of other types of vegetables and low tomato results precluded analysis of correlations of arsenic levels in vegetables with soil or biomarkers. Biomarker and environmental arsenic correlations. Speciated arsenic in urine was not correlated with arsenic in soil or house dust for children younger than 7 years of age (Table 4). When corrected for creatinine, speciated arsenic in urine was correlated with arsenic in house dust (p = 0.030). Age (p = 0.003) and body weight (p = 0.029) showed a significant positive association with speciated urinary arsenic levels but were negatively associated with speciated arsenic levels corrected for creatinine (Table 4). The only significant associations between urinary arsenic and categorical That which is unqualified or unconditional. A categorical imperative is a rule, command, or moral obligation that is absolutely and universally binding. Categorical is also used to describe programs limited to or designed for certain classes of people. exposure variables were visiting a local orchard (p = 0.002) or a home undergoing renovation (p = 0.027) within a week of sampling (Table 5). Age-adjusted regression models failed to indicate an association between arsenic in urine and the environmental variables. Increasing the considered age range to younger than 13 years of age (n = 76 for soil; n = 88 for house dust concentration) or to all ages (n = 249 for soil; n = 278 for house dust concentration) did not result in a significant association between speciated urinary arsenic and the environmental variables in age-adjusted regression models. Because a "base" model could not be established, further multiple regression models were not run. Results for children younger than 13 years of age were generally similar to those in children younger than 7 years: for example, highest correlation between speciated urinary arsenic levels and mean soil arsenic level (r = 0.201, p = 0.081) and significant association of speciated urinary arsenic with age (r = 0.294, p = 0.001). Creatinine-corrected speciated urinary arsenic, however, was not significantly correlated with arsenic in house dust, and urinary arsenic associations with body weight or visiting a house with renovations were not significant. For all participants, speciated urinary arsenic levels had the highest correlation with arsenic concentration in house dust (r = 0.110, p = 0.068), were negatively correlated with eating homegrown produce (r = -0.097, p = 0.043), and were higher for those who ate rice or rice products [GM (n) = 4.5 [micro]g/L (127) vs. 3.7 [micro]g/L (308); p = 0.003]. Age was negatively correlated with speciated (r = -0.158, p < 0.001) urinary arsenic levels, and males had slightly higher speciated urinary arsenic levels (GM = 4.17 [micro]g/L vs. 3.63 [micro]g/L; p = 0.029). Discussion Comparison with other sites. The ATSDR (2000) reported a reference level of 50 [micro]g/L for total arsenic in urine, but not for speciated arsenic, the better measure of exposure to inorganic arsenic. Toenail arsenic levels were below the reported reference level of 1 mg/kg (ATSDR 2000). Speciated urinary arsenic levels of young children (i.e., < 7 years of age) in Middleport were low compared with levels reported for children at other sites with higher soil arsenic levels (Table 6). Results of Polissar et al. (1987) reflected high levels of arsenic emitted from a recently operating smelter. Urinary arsenic levels for children were also much higher than for adults, unlike what we found at Middleport. After smelter closure, urinary results were considerably lower [TacomaPierce County Health Department (TPCHD TPCHD Tacoma-Pierce County Health Department (Washington) ) 1988; Table 6]. Middleport urinary arsenic levels for all ages combined were also consistent with results reported for "control" populations including all ages (Hinwood et al. 2003b, 2004; Polissar et al. 1987, 1990). Biomarker-based measures of arsenic exposure. Because inorganic arsenic also occurs naturally in food and water (ATSDR 2000; Schoof et al. 1999; Yost et al. 2004), low levels of speciated arsenic are expected in urine. Although organic arsenic in seafood and some terrestrial organisms (Irgolic et al. 1999) primarily affects total rather than speciated arsenic in urine, other forms of arsenic in seafood (e.g., arsenosugars in bivalves and seaweed seaweed, name commonly used for the multicellular marine algae. Simpler forms, consisting of one cell (e.g., the diatom) or of a few cells, are not generally called seaweeds; these tiny plants help to make up plankton. ) can contribute to methylated meth·yl·ate n. An organic compound in which the hydrogen of the hydroxyl group of methyl alcohol is replaced by a metal. tr.v. meth·yl·at·ed, meth·yl·at·ing, meth·yl·ates 1. arsenic species in urine (Le et al. 1999; Polissar et al. 1990). Arsenic in urine is considered the most reliable biomarker of recent arsenic exposure (e.g., a few days to a week; ATSDR 2000). Biomonitoring of communities typically uses first-morning-void samples because 24-hr urine collection particularly from children is inconvenient in·con·ven·ient adj. Not convenient, especially: a. Not accessible; hard to reach. b. Not suited to one's comfort, purpose, or needs: inconvenient to have no phone in the kitchen. and missed samples are likely (Hwang et al. 1997b). Hwang et al. (1997a, 1997b) analyzed two consecutive, first-morning-void urine samples for approximately 300 children and 24-hr urine in a subset A group of commands or functions that do not include all the capabilities of the original specification. Software or hardware components designed for the subset will also work with the original. of 25 children, but used the first-morning-void samples in the exposure analysis, and reported no differences in study results between using the average or highest of the two first-morning-void samples. Toenail and hair samples reflect longer term exposure but are not easily related to a daily dose and are confounded by external arsenic contamination that is not easily removed (Harkins and Susten 2003; Hindmarsh et al. 1999; Hinwood et al. 2003a). Sources and factors potentially affecting arsenic exposure. Several elements of the study increased the likelihood of detecting exposures from arsenic in soil: a) the study focused on the age group with greatest soil exposure; b) approximately half of young children in the community participated; c) biomonitoring occurred during summer when soil exposures would be highest; d) urinary samples were analyzed for the specific forms of arsenic related to inorganic arsenic exposure; and e) the study design evaluated the statistical relationship between environmental samples and individual urinary arsenic levels, including evaluation of other factors affecting exposure, rather than simply comparing mean urinary arsenic levels with another community. As also noted by a study in Bingham Creek, Utah, [University of Cincinnati The University of Cincinnati is a coeducational public research university in Cincinnati, Ohio. Ranked as one of America’s top 25 public research universities and in the top 50 of all American research universities,[2] Department of Environmental Health (UCDEH) 1997], increased awareness had little effect on exposure. Few parents attempted to limit their children's exposure to soil (5 of 76 for < 7 years of age; 8 of 135 for < 13 years of age), and urinary arsenic levels were not significantly lower. Correlations between environmental arsenic and urinary arsenic levels. Lack of correlation between urinary arsenic and environmental measures may be the result of low arsenic levels in Middleport or limited sample size (participation in soil sampling was likely limited by the site agreement that data be shared with the state environmental agency) relative to the weakness of the correlations. Based on the highest estimated correlation coefficient between speciated urinary arsenic and soil, the sample size of children would have to be larger ([greater than or equal to] 203) than the estimated population of young children (164) to detect a significant correlation at [alpha] = 0.05. Speciated urinary arsenic, however, was not correlated with arsenic in soil in Bingham Creek, which involved 696 children (UCDEH 1997). Reported correlations between speciated or inorganic urinary arsenic and measures of arsenic in soil are weak (r = 0.12-0.25, Hwang et al. 1997a, 1997b; Spearman spear·man n. A man, especially a soldier, armed with a spear. r = 0.39, Hinwood et al. 2004). An increase in soil arsenic from 10 to 100 mg/kg would increase the GM of speciated urinary arsenic in young children in Middleport by only 1.2 times, according to Hwang et al. (1997a). Lower bioavailability bioavailability /bio·avail·a·bil·i·ty/ (bi?o-ah-val?ah-bil´i-te) the degree to which a drug or other substance becomes available to the target tissue after administration. bi·o·a·vail·a·bil·i·ty n. and ingestion rates of arsenic in soil relative to food and water, combined with relatively low soil arsenic concentrations, are likely factors in the low soil arsenic exposure in this community. Creatinine adjustment of urinary arsenic did not improve correlations between urine and soil arsenic levels, although a correlation with house dust became significant. Larger studies reported similar findings, except that urinary arsenic was not correlated with house dust at one study location (Anaconda Anaconda, city, United States Anaconda (ănəkŏn`də), city (1990 pop. 10,278), seat of Deer Lodge co., SW Mont.; inc. 1887. , MT; Hwang et al. 1997a, 1997b) and only weakly weak·ly adj. weak·li·er, weak·li·est Delicate in constitution; frail or sickly. adv. 1. With little physical strength or force. 2. With little strength of character. correlated (r = 0.08; p < 0.05) in Bingham Creek (UCDEH 1997). Because creatinine excretion excretion, process of eliminating from an organism waste products of metabolism and other materials that are of no use. It is an essential process in all forms of life. In one-celled organisms wastes are discharged through the surface of the cell. levels vary with muscle mass, sex, age, diet, genetic factors, diseases, and time, creatinine is not an accurate measure of sample dilution (Barr et al. 2005). Collection at a standard time (first morning void) and using 2-day composite samples likely reduced sample dilution variation in our study. Although quantifying environmental exposure for individuals is uncertain, young children are more likely to be exposed to their immediate home environment, and composite soil samples are more representative of exposure over a yard than are a few discrete point samples (Hwang et al. 1997a; UCDEH 1997). For several participants, collection of house dust samples, particularly for measures of concentration, was delayed by scheduling difficulties. Such delays are not expected to affect the arsenic concentration in house dust as much as for arsenic loading, unless a source of arsenic has increased (e.g., burning treated wood treated wood Toxicology Wood impregnated with preservatives–eg, chromium-copper-arsenate, creosote, inorganic arsenicals, pentachlorophenol, to ↑ its useful life, thwarting insects, fungi, etc; chronic exposure to the fumes of burning wood or skin ). Arsenic loading thus may be less representative of conditions at the time of urinary sampling. Indirect indicators of potential arsenic exposure. Unlike the direct correlations Noun 1. direct correlation - a correlation in which large values of one variable are associated with large values of the other and small with small; the correlation coefficient is between 0 and +1 positive correlation with soil data, these indirect analyses (survey responses, geographic distribution of urine data) included data from nearly all 77 young children. Higher urinary arsenic levels in the few children who visited orchards may reflect exposure from historical use of arsenic-containing pesticides. Consumption of garden vegetables has not been associated with increased urinary arsenic levels at other sites, as well (Hwang et al. 1997a; Polissar et al. 1987; UCDEH 1997). Rice consumption may increase arsenic exposure, as observed in the total study population, because compared with other foods, a large percentage of arsenic in rice is in the inorganic form (Schoof et al. 1999). Thus, although we were not able to detect increased exposure from arsenic in soil, we may have been able to detect small contributions from dietary inorganic arsenic, a primary source of inorganic arsenic exposure (Meacher et al. 2002). Conclusions The results of this study are consistent with studies involving larger populations and higher soil arsenic concentrations. Although our results may seem inconsistent with those of risk assessment, biomonitoring and risk assessment differ in their focus. Speciated arsenic in urine includes all sources of inorganic arsenic (e.g., diet and water). Consequently, measurement of increased soil exposure is limited by the magnitude of this exposure relative to background sources of inorganic arsenic. Risk assessments of soil incorporate health-protective policy to avoid underestimation of soil exposure, regardless of whether background exposures from other sources are higher. Explaining these differences to the community is important for communicating risks. We thank the citizens of Middleport, New York Middleport is a village in Niagara County, New York, United States. The population was 1,917 at the 2000 census. The mail ZIP code is 14105. The Village of Middleport , for their assistance and J. Mandel and members of the scientific advisory panel (D. Barr, R. Bornschein, F. Frost Jr., D. Gute, P. Kostecki, H. Pastides, and P. Succop) for insightful guidance. The study was funded by the FMC Corporation. Views expressed are those of the authors and not those of their individual employers. The authors received funding from the FMC Corporation. Received 5 April 2005; accepted 17 August 2005. REFERENCES ATSDR. 2000. Toxicological Profile for Arsenic (Update) 2000. Atlanta, GA:Agency far Toxic Substances and Disease Registry disease registry Public health A surveillance system that collects and maintains structured records on the new cases of a specific disease or condition for a specified time period and population; a DR analyzes, and interprets data those with a common illness or . Barr DB, Wilder LC, Caudill SP, Gonzalez AJ, Needham LL, Pirkle JL. 2005. Urinary creatinine concentrations in the U.S. population: implications for urinary biologic monitoring measurements. Environ Health Perspect 113:192-200. Harkins DK, Susten AS. 2003. Hair analysis: exploring the state of the science. Environ Health Perspect 111:576-578. Hindmarsh JT, Dekerkhove D, Grime G, Powell J. 1999. Hair arsenic as an index of toxicity toxicity /tox·ic·i·ty/ (tok-sis´i-te) the quality of being poisonous, especially the degree of virulence of a toxic microbe or of a poison. . In: Arsenic Exposure and Health Effects (Chappell WR, Abernathy CO, Calderon RL, eds). Amsterdam:Elsevier, 41-49. Hinwood AL, Sim (1) (Society for Information Management, Chicago, IL, www.simnet.org) Founded in 1968 as the Society for MIS, it is a membership organization made up of corporate and division heads of IT organizations. MR, Jolley D, de Klerk de Klerk , F(rederik) W(illem) Born 1936. South African president (1989-1994) who shared the 1993 Nobel Peace Prize for his efforts toward ending apartheid in South Africa. N, Bastone EB, Gerostamoulos J, et al. 2003a. Hair and toenail arsenic concentrations of residents living in areas with high environmental arsenic concentrations. Environ Health Perspect 111:187-193. Hinwood AL, Sim MR, Jolley D, de Klerk N, Bastone EB, Gerostamoulos J, et al. 2003b. Risk factors for increased urinary inorganic arsenic concentrations from low arsenic concentrations in drinking water. Int J Environ Health Res 13(3):271-284. Hinwood AL, Sim MR, Jolley D, de Klerk N, Bastone EB, Gerostamoulos J, et al. 2004. Exposure to inorganic arsenic in soil increases urinary inorganic arsenic concentrations of residents living in older mining areas. Environ Geochem Health 26:27-36. Hwang YH, Bornschein RL, Grote J, Menrath W, Roda S. 1997a. Environmental arsenic exposure of children around a former copper smelter site. Environ Res 72:72-81. Hwang YH, Bornschein RL, Grote J, Menrath W, Roda S. 1997b. Urinary arsenic excretion as a biomarker of arsenic exposure in children. Arch Environ Health 52:139-147. Irgolic KJ, Goessler W, Kuehnelt D. 1999. Arsenic compounds in terrestrial biota biota /bi·o·ta/ (bi-o´tah) all the living organisms of a particular area; the combined flora and fauna of a region. bi·o·ta n. The flora and fauna of a region. . In: Arsenic Exposure and Health Effects (Chappell WR, Abernathy CO, Calderon RL, eds). Amsterdam:Elsevier, 61-68. Karagas MR, Tosteson TD, Blum J, Klaue B, Weiss JE, Stannard V, et al. 2000. Measurement of low levels of arsenic exposure: a comparison of water and toenail concentrations. Am J Epidemiol 152:84-90. Le XC, Ma M, Lai VW-M. 1999. Exposure to arsenosugars from seafood ingestion and speciation speciation Formation of new and distinct species, whereby a single evolutionary line splits into two or more genetically independent ones. One of the fundamental processes of evolution, speciation may occur in many ways. of urinary arsenic metabolites Metabolites Substances produced by metabolism or by a metabolic process. Mentioned in: Interactions . In: Arsenic Exposure and Health Effects (Chappell WR, Abernathy CO, Calderon RL, eds). Amsterdam:Elsevier, 69-79. Meacher DM, Menzel DB, Dillencourt MD, Bic LF, Schoof RA, Yost LJ, et al. 2002. Estimation of multimedia inorganic arsenic intake in the U.S. population. Hum hum (hum) a low, steady, prolonged sound. venous hum a continuous blowing, singing, or humming murmur heard on auscultation over the right jugular vein in the sitting or erect position; it is Ecol Risk Assess 8(7):1697-1721. NCWD. 2004. Annual Drinking Water Quality Report for 2003. Lockport, NY:Niagara County Water District. Polissar L, Bolgiano D, Burbacher TM, Covert DS, Hughes JP, Kalman DA, et al. 1987. Ruston/Vashon Arsenic Exposure Pathways Study. Seattle, WA:University of Washington, School of Public Health and Community Medicine. Polissar L, Lowry-Coble K, Kalman DA, Hughes JP, van Belle G, Covert DS, et al. 1990. Pathways of human exposure to arsenic in a community surrounding a copper smelter. Environ Res 53:29-47. Que Hee SS, Peace B, Clark CS, Boyle JR, Gornschein RL, Hammond PB. 1985. Evolution of efficient methods to sample lead sources, such as house dust or hand dust, in the homes of children. Environ Res 38:77-95. Schoof RA, Eickhoff J, Yost LJ, Crecelius EA, Cragin DW, Meacher DM, et al. 1999. Dietary exposure to inorganic arsenic. In: Arsenic Exposure and Health Effects (Chappell WR, Abernathy CO, Calderon RL, eds). Amsterdam:Elsevier, 81-88. TPCHD. 1988. Urinary Arsenic Survey, North Tacoma, Washington. Tacoma, WA:Tacoma-Pierce County Health Department. UCDEH. 1997. Bingham Creek Environmental Health Lead and Arsenic Exposure Study. Final Report. Cincinnati, OH:University of Cincinnati, Department of Environmental Health. U.S. Census Bureau. 2000. Table DP-1: Profile of General Demographic Characteristics: 2000. Geographic Area: Middleport village, New York. Available: http://www. factfinder.census.gov/servlet/SAFFFacts?_event=Search& geo_id=&_geoContext=&_street=&_county=Middleport&_ cityTown=Middleport&_state=04000US36&_zip=&_lang= en&_sse=on&pctxt=fph&pgsl=010 [accessed 4 May 2003]. U.S. EPA. 1986. Test Methods for Evaluating Solid Waste: Physical/Chemical Methods (SW846). Washington, DC:U.S. Environmental Protection Agency, Office of Solid Waste and Emergency Response. U.S. EPA. 1996a. Method 1038. Determination of Trace Elements Trace elements A group of elements that are present in the human body in very small amounts but are nonetheless important to good health. They include chromium, copper, cobalt, iodine, iron, selenium, and zinc. Trace elements are also called micronutrients. in Ambient Surrounding. For example, ambient temperature and humidity are atmospheric conditions that exist at the moment. See ambient lighting. Waters by Inductively Coupled Plasma-Mass Spectrometry. Washington, DC:U.S. Environmental Protection Agency, Office of Water, Engineering and Analysis Division. U.S. EPA. 1996b. Method 1632. Inorganic Arsenic in Water by Hydride Generation Quartz Furnace furnace, enclosed space for the burning of fuel. There are many kinds of furnaces, the type depending upon the fuel and the use to which the heat produced within it is put. Most familiar are the furnaces used in the heating of buildings. Atomic Absorption. Washington, DC:U.S. Environmental Protection Agency, Office of Water, Engineering and Analysis Division. U.S. EPA. 2002a. Child-Specific Exposure Factors Handbook. Interim Report. EPA 600-P-00-002B. Washington, DC:U.S. Environmental Protection Agency, National Center for Environmental Assessment, Office of Research and Development. U.S. EPA (U.S. Environmental Protection Agency, Region 2.). 2002b. FMC Corporation Fact Sheet. Available: http://www. epa.gov/region02/waste/fsfmc.pdf [accessed 14 July 2005]. Yost LJ, Tao S-H, Egan SK, Barraj LM, Smith KM, Tsuji JS, et al. 2004. Estimation of dietary intake of inorganic arsenic in U.S. children. Hum Ecol Risk Assess 10:473-483. Joyce S Joyce - A distributed language based on Pascal and CSP, by Per Brinch Hansen. ["Joyce - A Programming Language for Distributed Systems", Per Brinch Hansen, Soft Prac & Exp 17(1):29-50 (Jan 1987)]. . Tsuji, (1) Maria D. Van Kerkhove, (2) Rhonda S. Kaetzel, (1) Carolyn G. Scrafford, (3) Pamela J. Mink, (3) Leila M. Barraj, (3) Eric A. Crecelius, (4) and Michael Goodman (5) (1) Exponent exponent, in mathematics, a number, letter, or algebraic expression written above and to the right of another number, letter, or expression called the base. In the expressions x2 and xn, the number 2 and the letter n , Bellevue, Washington Bellevue is a rapidly growing city in King County, Washington, U.S., across Lake Washington from Seattle. Long known as a suburb or satellite city of Seattle,[1] it is now categorized as an edge city or a boomburb. , USA; (2) Exponent, New York, New York, USA; (3) Exponent, Washington, DC, USA; (4) Battelle Marine Sciences Laboratory, Sequim, Washington Sequim (skwɪm) is a city in Clallam County, Washington, United States. The population was 4,334 at the 2000 census. It is located along the Dungeness River near the base of the Olympic Mountains. , USA; (5) 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 Address correspondence to J. Tsuji, Exponent, 15375 SE 30th Place, Suite 250, Bellevue, WA 98007 USA. Telephone: (425) 519-8700. Fax: (425) 519-8799. E-mail: tsujij@exponent.com
Table 1. Demographic characteristics of the study area and
study participants [n (%)].
2000 U.S.
Study area Census (a)
Total persons 1,930 1,917
Population by sex
Male 874 (45) 908 (47)
Female 981 (51) 1,009 (53)
Unknown 75 (4) --
Population by age (years)
< 5 104 (5) 141 (7)
< 7 (i.e., younger than 84 months) 164 (8) --
5-9 116 (6) 129 (7)
10-14 105 (5) 172 (9)
15-19 128 (7) 155 (8)
[greater than or equal to] 20 997 (52) 1,320 (69)
Unknown 465 (25) --
Individuals by race (%)
White -- 1,867 (97)
African American -- 16 (< 1)
Native American -- 5 (< 1)
Asian -- 9 (< 1)
Other -- 20 (1)
Unknown -- 15 (< 1)
Total households 826 757
With children younger than 7 years 106 (13) --
With children younger than 13 years 161 (19) --
With individuals younger than 18 227 (27) 286 (38)
years
Income [less than or equal to] -- 358 (47) (b)
$40,000/year
Income > $40,000/year -- 399 (53) (b)
Unknown -- --
Study
participants
Total persons 439
Population by sex
Male 206 (47)
Female 233 (53)
Unknown --
Population by age (years)
< 5 43 (10)
< 7 (i.e., younger than 84 months) 77 (18)
5-9 70 (16)
10-14 42 (10)
15-19 28 (6)
[greater than or equal to] 20 256 (58)
Unknown --
Individuals by race (%)
White 402 (92)
African American 9 (2)
Native American 13 (3)
Asian 0
Other 8 (< 2)
Unknown 7 (< 2)
Total households 167
With children younger than 7 years 55 (33)
With children younger than 13 years 75 (47)
With individuals younger than 18 90 (54)
years
Income [less than or equal to] 72 (43)
$40,000/year
Income > $40,000/year 82 (49)
Unknown 13 (8)
(a) Within Middleport village boundaries. (b) 2000 U.S. Census
income categories (U.S. Census Bureau 2000) were less than
or greater than $35,000.
Table 2. Summary of arsenic concentration ([micro]g/L) in urine.
Individual
arsenic
species
Total Speciated Inorganic
arsenic arsenic arsenic
Children < 7 years (n = 77)
GM (GSD) 15.1 (1.8) 4.0 (2.2) 0.81 (1.5)
Range 2.1-59.6 0.89-17.7 0.31-2.1
Children < 13 years (n = 142)
GM (GSD) 15.7 (l.7) 4.6 (2.1) 0.83 (1.4)
Range 2.1-59.9 0.89-19.9 0.31-2.7
Children [greater than or
equal to] 7 years/adults
(n = 362)
GM (GSD) 15.8 (2.1) 3.8 (1.9) 0.78 (1.4)
Range 3.9-773 0.91-19.9 0.31-2.7
All participants (n = 439)
GM (GSD) 15.7 (2.0) 3.9 (1.9) 0.78 (1.4)
Range 2.1-773 0.89-19.9 0.31-2.7
Individual
arsenic species
MMA DMA
Children < 7 years (n = 77)
GM (GSD) 0.54 (1.9) 2.5 (2.9)
Range 0.12-2.1 0.27-13.8
Children < 13 years (n = 142)
GM (GSD) 0.55 (1.8) 3.0 (2.6)
Range 0.11-2.4 0.27-17.1
Children [greater than or
equal to] 7 years/adults
(n = 362)
GM (GSD) 0.44 (1.8) 2.5 (2.3)
Range 0.024-2.4 0.17-17.1
All participants (n = 439)
GM (GSD) 0.46 (1.8) 2.5 (2.4)
Range 0.024-2.4 0.17-17.1
Table 3. Summary of arsenic concentration in soil and
house dust.
Soil (mg/kg)
Property Property
average maximum
All households
No. of homes sampled 85 85
GM (GSD) 20.6 (2.0) 24.7 (2.2)
Range 4.6-340 6.2-1,124
Households with children younger
than 7 years
No. of homes sampled 29 29
GM (GSD) 19.9 (1.6) 23.8 (1.7)
Range 10.4-46.4 10.4-58.8
House dust
Surface loading
Arsenic of arsenic
concentration ([micro]g/100
(mg/kg dust) [cm.sup.2])
All households
No. of homes sampled 96 111
GM (GSD) 10.8 (3.0) 0.071 (4.4)
Range 1.0-172 0.004-2.97
Households with children younger
than 7 years
No. of homes sampled 36 37
GM (GSD) 11.2 (3.1) 0.058 (4.0)
Range 1.7-172 0.004-0.77
Table 4. Correlation of urinary arsenic levels with environmental
arsenic levels and numerical exposure factors for children younger
than 7 years of age.
Exposure factor No. Mean [+ or -] SD
Soil arsenic average (mg/kg) 41 18.8 (1.6) (a)
Soil arsenic maximum (mg/kg) 41 22.9 (1.7) (a)
House dust arsenic concentration (mg/kg) 52 10.6 (2.9) (a)
House dust surface loading ([micro]g 53 0.058 (4.1) (a)
As/100 [cm.sup.2])
Age of child (years) 77 4.3 [+ or -] 2
Weight (kg) 75 18.3 [+ or -] 6.4
Time playing in outdoor area (days/week) 70 5.2 [+ or -] 1.7
Washed hands (times/day) 77 4.4 [+ or -] 3.1
Playing near creeks (days/week) 10 4.0 [+ or -] 2.5
Playing in orchards (days/week) 3 1.7 [+ or -] 0.6
Exposure factor Median Range
Soil arsenic average (mg/kg) 15.6 10.4-46.4
Soil arsenic maximum (mg/kg) 22.6 10.4-58.8
House dust arsenic concentration (mg/kg) 9.5 1.7-172
House dust surface loading ([micro]g 0.056 0.004-0.77
As/100 [cm.sup.2])
Age of child (years) 4.7 0.1-7
Weight (kg) 18 5-35
Time playing in outdoor area (days/week) 5 1-7
Washed hands (times/day) 3 0-20
Playing near creeks (days/week) 4 1-7
Playing in orchards (days/week) 2 1-2
Correlation with
urinary arsenic
([micro]g/L)
Creatinine-
corrected
Speciated speciated
Exposure factor arsenic arsenic
Soil arsenic average (mg/kg) 0.137 -0.019
Soil arsenic maximum (mg/kg) 0.045 -0.132
House dust arsenic concentration (mg/kg) 0.049 0.301 *
House dust surface loading ([micro]g 0.090 0.232
As/100 [cm.sup.2])
Age of child (years) 0.331 ** -0.263 *
Weight (kg) 0.253 * -0.317 **
Time playing in outdoor area (days/week) -0.150 0.003
Washed hands (times/day) -0.052 -0.275 *
Playing near creeks (days/week) 0.160 0.152
Playing in orchards (days/week) -0.484 -0.868
Urinary and environmental arsenic variables were log transformed before
analysis. Other numerical survey variables not shown did not have
significant correlations: body mass index, number in household, and
frequency of bathing, taking food/drink outdoors, drinking tap water,
and eating homegrown produce, seafood, and rice products.
(a) GM (GSD). * p < 0.05. ** p < 0.01.
Table 5. Summary of categorical questionnaire variables and
associated urinary arsenic levels ([micro]g/L) for children
younger than 7 years of age.
Speciated
arsenic
Response No. GM (GSD)
Sex Female 40 3.80 (2.46)
Male 37 4.25 (2.00)
Visited a house/building with Yes 6 7.93 (1.62) *
ongoing renovations? No 68 3.76 (2.21)
Don't know 1 5.75 (--)
Limit child's exposure to Yes 5 2.18 (2.76)
soil or dust? No 71 4.12 (2.17)
Play near creeks? Yes 10 4.23 (2.46)
No 67 3.98 (2.22)
Spent time at local orchard Yes 3 5.43 (1.04) *
or produce farm? No 73 3.96 (2.28)
* Significant difference in urinary arsenic levels between "yes" and
"no" responses (t-test; p < 0.05). Other categorical responses with
no significant differences: type of ground play surface, playing with
outdoor pet, age of house, frequency of sucking fingers, frequency of
putting objects in mouth, family income, exposure to smoking, daycare
attendance, race, pacifier use, herbal medicine use, exposure to
treated wood, street paved, eaten homegrown produce, eaten seafood,
eaten rice/rice products, large digging or moving soil projects in
last year. No significant results for creatinine-corrected speciated
arsenic.
Table 6. Speciated urinary arsenic and soil arsenic levels for
young children at various sites.
Speciated urinary arsenic
concentration ([micro]g/L)
n GM (GSD)
Middleport, NY, 2003 77 4.0 (2.2)
5.3 [+ or -] 3.0 (a)
Bingham Creek, UT (UCDEH 1997)
Residences near Bingham Creek channel 696 5.86 (1.96)
Ruston/North Tacoma, WA, 1985-1986
(Polissar et al. 1987)
< 0.5 miles from smelter 118 52.1 (42.5) (b)
0.5-1.2 miles from smelter 97 22.5 (29.3) (b)
1.5-8.5 miles from smelter 49 13.7 (10.3) (b)
Reference site (Bellingham, WA) 4 13.3 (3.3) (b)
> 100 miles from smelter
Ruston/North Tacoma, WA, 1987
(TPCHD 1988)
< 0.5 miles from smelter 88 16.2 (16)
Anaconda, MT
(Hwang et al. 1997a, 1997b)
Close to smelter 177 9.5 (1.7)
Intermediate 62 7.5 (1.5)
Remote 42 7.1 (1.8)
Speciated
urinary arsenic
concentration
([micro]g/L)
Range n
Middleport, NY, 2003 0.89-17.7 29
Bingham Creek, UT (UCDEH 1997)
Residences near Bingham Creek channel ND-35 1,045
Ruston/North Tacoma, WA, 1985-1986
(Polissar et al. 1987)
< 0.5 miles from smelter NR 45
0.5-1.2 miles from smelter NR 40
1.5-8.5 miles from smelter NR 34
Reference site (Bellingham, WA) NR 10
> 100 miles from smelter
Ruston/North Tacoma, WA, 1987
(TPCHD 1988)
< 0.5 miles from smelter NR NR
Anaconda, MT
(Hwang et al. 1997a, 1997b)
Close to smelter NR-16.4 876
Intermediate NR-19.0 405
Remote NR-12.1 302
Soil arsenic
concentration (mg/kg)
GM (GSD)
Middleport, NY, 2003 19.9 (1.6)
22.5 [+ or -] 11.7 (a)
Bingham Creek, UT (UCDEH 1997)
Residences near Bingham Creek channel 27 (1.8)
Ruston/North Tacoma, WA, 1985-1986
(Polissar et al. 1987)
< 0.5 miles from smelter 352 (410) (b)
0.5-1.2 miles from smelter 125 (109) (b)
1.5-8.5 miles from smelter 29.6 (49) (b)
Reference site (Bellingham, WA) 6.6 (2.7) (b)
> 100 miles from smelter
Ruston/North Tacoma, WA, 1987
(TPCHD 1988)
< 0.5 miles from smelter NR
Anaconda, MT
(Hwang et al. 1997a, 1997b)
Close to smelter 286 (c)
Intermediate 150 (c)
Remote 90 (c)
Soil arsenic
concentration
(mg/kg)
Range
Middleport, NY, 2003 10.4-58.8
Bingham Creek, UT (UCDEH 1997)
Residences near Bingham Creek channel 4-623
Ruston/North Tacoma, WA, 1985-1986
(Polissar et al. 1987)
< 0.5 miles from smelter 12-2,069
0.5-1.2 miles from smelter 9-1,322
1.5-8.5 miles from smelter 2-290
Reference site (Bellingham, WA) 2-10
> 100 miles from smelter
Ruston/North Tacoma, WA, 1987
(TPCHD 1988)
< 0.5 miles from smelter NR
Anaconda, MT
(Hwang et al. 1997a, 1997b)
Close to smelter NR
Intermediate NR
Remote NR
Abbreviations: ND, not detected; NR, not reported.
(a) Arithmetic average [+ or -] SD. (b) Arithmetic averages
were reported for urine and soil. Urine values are the weighted
arithmetic average from separate results for male and female.
(c) Average yard soil arsenic concentrations for Anaconda are
the GM calculated as the weighted average of all soil samples.
|
|
||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion