Arsenic on the hands of children after playing in playgrounds.Increasing concerns over the use of wood treated with chromated copper arsenate Chromated copper arsenate (CCA) is a wood preservative used for timber treatment, in use since the mid-1930's. It is a mix of copper, chromium, and arsenic formulated as oxides or salts. (CCA (1) (Common Cryptographic Architecture) Cryptography software from IBM for MVS and DOS applications. (2) (Compatible Communications A ) in playground structures arise from potential exposure to 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. of children playing Album Info
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********** Chromated copper arsenate (CCA) is a common wood preservative wood preservative substances used as dressing for lumber to protect it against mold, insects, pests, fire, etc. Animals housed in pens made of wood which has been treated with wood preservatives may be poisoned by these compounds if they chew the wood. (American Wood Preservers Institute 2001; Bull 2000, 2001; CPSC CPSC Consumer Product Safety Commission (US) CPSC Computer Science (course) CPSC Canadian Plastics Sector Council (Ottawa, ON, Canada) CPSC Chemical Processing Safety Committee 2002). Starting 1 January 2004, the U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ) has banned CCA as a preservative preservative Any of numerous chemical additives used to prevent or slow food spoilage caused by chemical changes (e.g., oxidation, mold growth) and maintain a fresh appearance and consistency. Antimycotics (e.g. for wood intended for residential use. Despite the ban 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 CCA-treated wood is used in many existing structures in residential decks and public playgrounds. Approximately 70% of single-family homes in the United States have decks and porches containing CCA, and 14% of public playgrounds have CCA wood structures (U.S. EPA 2002a, 2003a, 2003b, 2004). In Edmonton, Alberta, Canada, at the time of this study, 222 of 316 city-owned public playgrounds were constructed either totally or partially with CCA-treated wood. Although there are numerous studies on arsenic dislodging and leaching from CCA-treated wood [Cooper 1990, 1991; Cooper et al. 2001; Henningsson and Carlsson 1984; Hingston et al. 2001, 2002; Stilwell and Gorny 1997; Stilwell et al. 2003; Taylor et al. 2001; Townsend et al. 2003; U.S. Department of Agriculture (USDA USDA, n.pr See United States Department of Agriculture. ) 1996], there is little quantitative information on arsenic exposure due to CCA-treated wood in playgrounds. Studies on CCA-treated wood have mostly examined soil and sand samples from playgrounds (Balasoiu et al. 2001; Stilwell and Gorny 1997; Townsend et al. 2003; Zagury et al. 2003). None of these studies have measured the levels of arsenic found on the hands of children playing on the CCA-treated structures. Thus, risk assessment has relied on estimates of exposure assessment with many assumptions [Consumer Product Safety Commission (CPSC) 1990; Hemond and Solo-Gabriele 2004; U.S. EPA 2001, 2002b]. In the absence of more reliable measured values of arsenic actually found on children's hands, predictions were made using calculations of average child hand surface area, adherence factors for various types of soil, and activity patterns and behaviors of children at playgrounds (Hemond and Solo-Gabriele 2004; U.S. EPA 2001, 2002b). To improve exposure assessment of arsenic from playgrounds, it is essential to obtain information on the levels of arsenic on children's hands. However, there is no direct measurement of arsenic levels on the hands of children in contact with either CCA-treated wood or the soil/sand. The purpose of this project is to fill this gap. Our objective in this study was to determine the quantitative amount of arsenic on the hands of children in contact with CCA-treated wood structures and sand in playgrounds. We chose eight playgrounds that were constructed with CCA-treated wood and another eight playgrounds that did not contain CCA-treated wood. After play, the children's hands were washed and the arsenic concentration on the hands and in the sand was measured in the washing. Arsenic levels on the hands of 66 children playing in CCA-treated playgrounds are compared with levels of arsenic found on the hands of 64 children playing in playgrounds that are not constructed with CCA-treated wood. This information on the level of arsenic exposure is essential to a reliable assessment of the health risks to the public with the existence of CCA-treated wood structures in playgrounds. Materials and Methods Playground selection. The city of Edmonton owned and operated 316 public playgrounds at the time of this study, of which 222 were constructed either totally or partially with CCA-treated wood. For this study, we selected 16 playgrounds constructed between 1985 and 2003. Eight playgrounds contained CCA-treated wood structures and the other eight did not. We selected the playgrounds to represent various characteristics of the playgrounds in the city. In particular, the age of playgrounds, the manufacturers, and the geographic locations of the playgrounds in the city were similar between the CCA and non-CCA groups. Children's hand-washing samples. During 5-21 August 2003, the 16 playgrounds were visited for sampling in a randomized ran·dom·ize tr.v. ran·dom·ized, ran·dom·iz·ing, ran·dom·iz·es To make random in arrangement, especially in order to control the variables in an experiment. order, with CCA and non-CCA playgrounds interspersed throughout the sampling period. Weather conditions as well as the date and time of arrival were recorded for every playground visited. Except for damp conditions recorded for three CCA playgrounds (C, D, and N) and two non-CCA playgrounds (E and H) because of light rainfalls during the previous night, dry conditions were recorded for all other sampling days. The time that children arrived at each playground was recorded. Parents of the children were asked for permission to allow their children's participation in the study. The study objectives, procedures, and potential risks and benefits were explained. Information sheets were made available to the parents. Written consent was obtained from the parents of participating children. On average, seven to nine children participated at each playground. This number varied because it was determined by an uncontrollable factor, the number of children actually playing at each playground on a given sampling day. The only exclusion criterion was the absence of a parent's consent. Study protocols were approved by the University of Alberta Health Research Ethics Research ethics involves the application of fundamental ethical principles to a variety of topics involving scientific research. These include the design and implementation of research involving human participants (human experimentation); animal experimentation; various aspects of Board. After playing in the playgrounds, the participating children provided hand-washing samples. The hand-washing sampling consisted of collecting the washings of children's hands, after playing in the playgrounds, with deionized water. Sterile medium-sized Ziploc bags (18 x 20 cm; Johnson and Son Ltd., Brantford, ON, Canada) were filled with 150 mL of &ionized i·on·ize tr. & intr.v. i·on·ized, i·on·iz·ing, i·on·iz·es To convert or be converted totally or partially into ions. i water at the beginning of every day of sampling. At each playground, once children had finished playing, their hands were rinsed for 1 min in the Ziploc bags containing deionized water. The age of each child and the length of time the child had played in the playground were recorded to correspond with the correct hand-washing sample. The hand-washing samples were then brought back to the laboratory, where they were carefully poured into sterile polystyrene polystyrene (pŏl'ēstī`rēn), widely used plastic; it is a polymer of styrene. Polystyrene is a colorless, transparent thermoplastic that softens slightly above 100°C; (212°F;) and becomes a viscous liquid at around 185°C; bottles. Each bag was rinsed with 80 mL of deionized water, and the rinse solution was added to the corresponding sample in the polystyrene bottle. The samples (total of 230 mL) were stored at 4[degrees]C until analysis. A control sample was also prepared in the same manner for every day of sampling, in which no hands were washed, but all other steps were followed. Determination of arsenic in hand-washing samples. We analyzed the washings collected for every child in all of the 16 playgrounds together on the same day for total arsenic concentrations. Because the hand washing  This article or section contains .The purpose of Wikipedia is to present facts, not to teach subject matter. contained residual sand from children's hands, the concentrations of arsenic in the solution and the sand were determined separately after filtration. Hand-washing samples were filtered using Whatman glass filters with 1.2-[micro]m pore pore (por) a small opening or empty space. alveolar pores openings between adjacent pulmonary alveoli that permit passage of air from one to another. size (Whatman International Ltd., Maidstone, UK). The sand collected on the filters was dried at 140[degrees]C and weighed. This provided direct measurements of the amount of sand on children's hands. We collected the filtrate filtrate /fil·trate/ (fil´trat) a liquid or gas that has passed through a filter. fil·trate v. To put or go through a filter. n. for the analysis of soluble arsenic in the washing. To 10 mL of filtered samples we added 100 [micro]L of concentrated HN[O.sub.3] to give an overall concentration of 1% nitric acid nitric acid, chemical compound, HNO3, colorless, highly corrosive, poisonous liquid that gives off choking red or yellow fumes in moist air. It is miscible with water in all proportions. . Concentrations of total arsenic (micrograms per liter) in each hand-washing sample were determined from triplicate analyses. Arsenic concentration multiplied by the volume of hand-washing solution (230 mL) provided the total amount (micrograms) of soluble arsenic on children's hands. We quantified the arsenic using an 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 spectrometer spectrometer Device for detecting and analyzing wavelengths of electromagnetic radiation, commonly used for molecular spectroscopy; more broadly, any of various instruments in which an emission (as of electromagnetic radiation or particles) is spread out according to some (6100DRC DRC Democratic Republic of Congo DRC Down (Stage) Right Center DRC Director(ate) of Reserve Components DRC Disability Rights Commission (United Kingdom) Plus; PerkinElmer Sciex, Concord, ON, Canada). The standard liquid sample introduction system consisted of a Meinhard nebulizer nebulizer /neb·u·liz·er/ (neb´u-li?zer) atomizer; a device for throwing a spray. neb·u·liz·er n. coupled to a cyclonic cy·clone n. 1. Meteorology a. An atmospheric system characterized by the rapid inward circulation of air masses about a low-pressure center, usually accompanied by stormy, often destructive weather. spray chamber (Glass Expansion, West Melbourne West Melbourne may be:
CETAC Canadian Environmental Technology Advancement Centre Technologies Inc., Omaha, NE, USA) to introduce the samples. The flow rate for sample introduction was set to 0.8 mL/min. The radio-frequency power was 1100 W. The argon argon (är`gŏn) [Gr.,=inert], gaseous chemical element; symbol Ar; at. no. 18; at. wt. 39.948; m.p. −189.2°C;; b.p. −185.7°C;; density 1.784 grams per liter at STP; valence 0. gas flow rates were 15 L/min (plasma gas), 1.2 L/min (auxiliary gas), and 0.9 L/min (nebulizer gas), respectively. Rhodium rhodium (rō`dēəm), metallic chemical element; symbol Rh; at. no. 45; at. wt. 102.9055; m.p. about 1,966°C;; b.p. 3,727±100°C;; sp. gr. 12.41 at 20°C;; valence +2, +3, +4, +5, or +6. (5 [micro]g/L) was used as an internal standard. Calibration of the inductively coupled plasma An inductively coupled plasma (ICP) is a type of plasma source in which the energy is supplied by electrical currents which are produced by electromagnetic induction, that is, by time-varying magnetic fields. mass spectrometer (ICPMS ICPMS Inductively Coupled Plasma Mass Spectrometry ICPMS Inductively Coupled Plasma Mass Spectroscopy ) using eight arsenic concentrations (0, 0.4, 0.8, 1.2, 1.6, 2.0, 5.0, and 10.0 [micro]g/L) was carried out every 50 samples, and standard reference material (SRM (1) (Storage Resource Management) The management of the storage resources in an organization in order to avoid duplication of files and to determine space utilization across all servers. ) 1640 [National Institute of Standards and Technology National Institute of Standards and Technology, governmental agency within the U.S. Dept. of Commerce with the mission of "working with industry to develop and apply technology, measurements, and standards" in the national interest. (NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. ), Gaithersberg, MD, USA], trace element in natural water (after 10-fold dilution) was analyzed every 10 samples as a quality control. The measured values of arsenic in the SRM were 24.1 [+ or -] 1.8 [micro]g/L from 14 repeat analyses spaced over 2 days. This is in good agreement with the certified value (26.67 [+ or -] 0.41 [micro]g/L) of the SRM. Playground sand/soil samples. Three composite sand/soil samples were collected from each playground on the same day when the children's hand-washing samples were obtained. They were collected from the underdeck areas, the areas in which children frequently played, and the areas away from any playground structures. Sand and soil were taken from these areas to a depth of 0-6 inches, mixed, and placed in separate clean glass containers. The exact locations of sampling were marked on a detailed plan of each playground, as was the time of sampling. In addition, two playgrounds (G and R) containing CCA-treated wood structures were extensively sampled, with 24 samples collected at 0- to 6-inch depth from various locations of these playgrounds, particularly the areas frequently accessed by children. Determination of arsenic in playground soil/sand samples. The level of arsenic in the sand/soil samples was determined by EnviroTest Laboratories (Edmonton, AB, Canada) 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. its Standard Operating Procedures standard operating procedure Medtalk A technique, method or therapy performed 'by the book,' using a standard protocol meeting internally or externally defined criteria; a formal, written procedure that describes how specific lab operations are to be performed. . Briefly, we followed U.S. EPA SW- SW- Backward Surface Wave 846 method 3050B (U.S. EPA 1996) for the acid digestion of the sand/soil samples. A representative 1-2 g sample was digested in nitric acid and hydrogen peroxide hydrogen peroxide, chemical compound, H2O2, a colorless, syrupy liquid that is a strong oxidizing agent and, in water solution, a weak acid. It is miscible with cold water and is soluble in alcohol and ether. . The digest was then refluxed with nitric acid until all solid material was completely dissolved. The digest was diluted with deionized water, and the final solution contained 5% nitric acid. We determined the arsenic concentration in the digest using an Elan (Emulated LAN) A virtual LAN in the ATM world. See LANE and virtual LAN. Elan - ["Top-down Programming with Elan", C.H.A. Koster, Ellis Horwood 1987]. 6000 ICPMS (PerkinElmer Sciex), following U.S. EPA method 6020 (U.S. EPA 1994). Included in the ICPMS analytical runs were the following quality control samples: calibration verification (every 10 samples), reagent reagent /re·a·gent/ (re-a´jent) a substance used to produce a chemical reaction so as to detect, measure, produce, etc., other substances. re·a·gent n. blanks (every 10 samples), method blanks (one per batch), matrix spikes (10% of samples), sample duplicates (10% of samples), and NIST SRM 2709 (one per batch). Statistical analysis. Statistical analysis was performed 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 11.5; SPSS Inc., Chicago, IL, USA). Data are expressed as mean [+ or -] SD. The total amount of soluble arsenic on children's hands and the amount of arsenic in soil/sand values were compared between CCA and non-CCA playgrounds using two-independent samples t-test. The age of the children, the length of time the children played, and the concentration of arsenic in the sand/soil from the playgrounds were also compared by using t-test. The Pearson correlation coefficient Correlation Coefficient A measure that determines the degree to which two variable's movements are associated. The correlation coefficient is calculated as: was computed between all the continuous measurements. In multivariate analysis multivariate analysis, n a statistical approach used to evaluate multiple variables. multivariate analysis, n a set of techniques used when variation in several variables has to be studied simultaneously. , arsenic on children's hands was compared between CCA and non-CCA playgrounds after controlling for all the other variables using a general linear model. A p-value < 0.05 was considered statistically significant. Risk evaluation. Risk calculation followed the U.S. EPA's risk assessment framework (U.S. EPA 2001, 2002b). 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. was considered the main route of exposure. Exposure to arsenic by dermal dermal /der·mal/ (der´mal) pertaining to the dermis or to the skin. der·mal or der·mic adj. Of or relating to the skin or dermis. absorption and inhalation inhalation /in·ha·la·tion/ (in?hah-la´shun) 1. the drawing of air or other substances into the lungs.inhala´tional 2. the drawing of an aerosolized drug into the lungs with the breath. 3. was considered negligible (Bernstam et al. 2002; Wester et al. 2004). We used the measured values of arsenic on children's hands for risk estimation. For comparison, we also used the amount of incidental ingestion of soil arsenic, estimated from the amount of sand ingested in·gest tr.v. in·gest·ed, in·gest·ing, in·gests 1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat. 2. per day and the concentration of arsenic in the sand. The latter followed the usual assumption that the amount of sand ingested by children (2-6 years of age) is 50% of the total amount of sand (100 [micro]g) on children's hands. Results 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 participating children. One hundred thirty children participated in this study, of whom 66 (50,8%) were from CCA playgrounds and 64 (49.2%) were from the non-CCA playgrounds. Seventy participating children (53.8%) were boys, and 60 were girls (46.2%). The ages (mean [+ or -] SD) of the participating children were 4.7 [+ or -] 2.5 years for the CCA playgrounds and 4.8 [+ or -] 2.4 for the non-CCA playgrounds (Figure 1). There was no significant difference in the children's ages between the two groups (p = 0.82). [FIGURE 1 OMITTED] We selected all children at each playground whose parents were able to provide written consent. Most children (> 80%) playing at each playground during the sampling period of 3-5 hr participated in the study. Thus, on average there were seven to nine participating children from each playground. A total number of 130 participating children is reasonable considering that 42% of children 2-6 years of age spend < 3 hr/day outdoors and that 80% of children under the age of 11 years spent [less than or equal to] 1 hr each day playing outdoors on sand, gravel, dirt, or grass (U.S. EPA 2002b). Length of play time in the playgrounds. Figure 2 compares the length of time children played in the playground before hand-washing samples were obtained from the children. The mean length of play time was 74.4 [+ or -] 45.7 min (median, 60 min; range, < 30-240 min) for the CCA playgrounds and 49.4 [+ or -] 27.6 min (median, 45 min; range, < 30-120 min) for the non-CCA playgrounds. Although the average length of play between the two groups was different, this is mainly driven by a few children (n = 8) who played > 120 min in the CCA playgrounds compared with the non-CCA playgrounds, where three children played for 120 min and no children played > 120 min. [FIGURE 2 OMITTED] Concentration of arsenic in the sand/soil from the playgrounds. Table 1 shows the concentration of arsenic in sand/soil samples collected from the 16 playgrounds. The values of arsenic concentration in sand/soil (mean [+ or -] SD) were 3.3 [+ or -] 1.7 (median, 2.9; range, 0.8-7.4) for the CCA playgrounds and 1.9 [+ or -] 1.2 (median, 1.8; range, 0.5-5.3) for the non-CCA playgrounds. Although the concentrations of arsenic in the samples from the different playgrounds vary, there is no significant difference between the two groups (p = 0.07). To examine possible heterogeneity het·er·o·ge·ne·i·ty n. The quality or state of being heterogeneous. heterogeneity the state of being heterogeneous. of arsenic concentration in sand/soil samples from the playgrounds, we conducted extensive multiple sampling from two CCA playgrounds (G and R). We collected 24 samples from each of these playgrounds and analyzed them for arsenic concentration. The values (mean [+ or -] SD) of arsenic concentration were 3.5 [+ or -] 1.4 (median, 3.1; range, 1.3-6.0) for playground G and 3.5 [+ or -] 1.5 (median, 2.9; range, 1.7-7.4) for playground R. Both of these playgrounds contained CCA-treated wood structures. Amount of soluble arsenic in the hand washing. Table 2 shows the amount of soluble arsenic in hand washing of children playing in the 16 playgrounds. The hand washing was filtered to remove residual sand and the filtrate was directly analyzed for soluble arsenic present in the hand washing. Thus, these results represent the amount of soluble arsenic on children's hands that were washed with 150 mL water. The overall values were 501 [+ or -] 512 ng (median, 398 ng; range, 8-3,536 ng) for the CCA playgrounds and 95 [+ or -] 70 ng (median, 72 ng; range, 11-407 ng) for the non-CCA playgrounds. The levels of arsenic on children's hands were significantly (p < 0.001) higher for children playing in the CCA playgrounds compared with those in the non-CCA playgrounds. Amount of arsenic in the sand residue collected in the hand washing. Table 3 shows the amount of sand collected from children's hand washing. The fine sand particles were collected in the hand washing and were filtered, dried, and weighed. The amount of sand collected from children's hands in dry weight was 22.0 [+ or -] 19.1 mg (median, 16.4 mg; range, 0.8-95.8 mg) for the CCA playgrounds and 25.2 [+ or -] 23.3 mg (median, 16.6 mg; range, 3.7-116.2 mg) for the non-CCA playgrounds. There was no significant difference between the two groups (p = 0.23) regarding the amount of sand on the children's hands. This is not surprising because of the similar age distributions (thus similar distribution of the size of hands) and the similar dry weather conditions during the sampling (thus similar adsorption adsorption, adhesion of the molecules of liquids, gases, and dissolved substances to the surfaces of solids, as opposed to absorption, in which the molecules actually enter the absorbing medium (see adhesion and cohesion). of sand). Table 3 also shows the corresponding quantity of arsenic present in the sand that was washed from children's hands. The overall values were 60 [+ or -] 60 ng (median, 43 ng; range, 2-329 ng) for the CCA playgrounds and 49 [+ or -] 44 ng (median, 42 ng; range, 4-208 ng) for the non-CCA playgrounds. There was no significant difference between the two groups (p = 0.28) regarding the amounts of arsenic present in the sand that was washed off from children's hands. This is consistent with the fact that similar amounts of sand were collected on the children's hands and that similar concentrations of arsenic were present in the sand samples from both groups of playgrounds (Table 1). Total amount of arsenic in the hand washing. Table 4 summarizes the total amount of arsenic in the hand washing. The values correspond to the sum of soluble arsenic and the arsenic in the sand residue collected in the hand washing for each child. The overall values were 561 [+ or -] 552 ng (median, 416 ng; range, 8-3,865 ng) for the CCA playgrounds and 143 [+ or -] 95 ng (median, 124 ng; range, 23-475 ng) for the non-CCA playgrounds. The levels of total arsenic on children's hands were significantly (p < 0.001) higher for children playing in the CCA playgrounds than for those in the non-CCA playgrounds. This difference is primarily driven by the soluble arsenic (Table 2). Additional statistical analysis. There is no difference between boys and girls boys and girls mercurialisannua. with regard to the amount of arsenic in their hand washing. Figure 3 shows that the amount of arsenic seems to increase with increasing age of children. However, there is no clear correlation (r = 0.24) between the children's age and the amount of arsenic on their hands. Similarly, there is a very weak correlation (r = 0.33) between the length of play time and the amount of arsenic on their hands (Figure 3). [FIGURE 3 OMITTED] In multivariate analysis, the amount of arsenic on children's hands remains significantly (p < 0.001) higher for those children who played in the CCA playgrounds than for those who played in the non-CCA playgrounds, even after controlling for the age of children and length of play time. Discussion The playgrounds were selected to represent the geographic locations of the entire city. The age and the manufacturers of the playgrounds were matched between the two groups. Sampling from the CCA and non-CCA playgrounds was carried out on alternate days. The weather conditions during sample collection were similar between the two groups. Therefore, with these variables controlled, we are able to examine any other differences between the playgrounds with or without the CCA-treated wood structures. The ages of children and the length of their playing time in both groups of playgrounds were not controlled by design because we wanted to include as many participating children as possible. All children playing in the playgrounds during the time of our visit were approached, and those with their parents' written consent participated in the study. The ages of children and the length of their playing time in both groups of playgrounds were not significantly different (Figures 1 and 2). Results for arsenic in the sand/soil samples from the playgrounds show that there is no significant difference between the CCA and non-CCA playgrounds. The concentrations of arsenic in these samples from both types of playgrounds (3.3 [+ or -] 1.7 and 1.9 [+ or -] 1.2 mg/kg, respectively; Table 1) are below the Canadian guideline value of 12 mg/kg, established by the Canadian Council Canadian Council may refer to: In aviation:
CCME Cisco CallManager Express (IP telephony) CCME Churches' Commission for Migrants in Europe CCME Cleveland Coin Machine Exchange, Inc. ) National Contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. Sites Remediation Program for all land use (residential/parkland) in Canada (CCME 1995). The guideline value was based on an estimated lifetime incremental Additional or increased growth, bulk, quantity, number, or value; enlarged. Incremental cost is additional or increased cost of an item or service apart from its actual cost. risk of [10.sup.-6] and a soil ingestion rate of 20 mg/day. We found 22 [+ or -] 19 and 25 [+ or -] 23 mg sand from the hands of children playing in the CCA and non-CCA playgrounds, respectively (Table 3). Assuming that all the soil on children's hands is ingested, the measured amount and the estimated values are similar. The most important and significant difference between the playgrounds with or without the CCA-treated wood structures is the levels of arsenic found in the washings of children's hands. The total amount of arsenic (Table 4), including both water-soluble arsenic in the washing water (Table 2) and arsenic in the sand collected from children's hands (Table 3), was significantly higher for the CCA group (561 [+ or -] 552 ng) than for the non-CCA group (143 [+ or -] 95 ng). This difference was dominated by the soluble arsenic in the hand-washing water, which was approximately 5-fold higher in the CCA group (501 [+ or -] 512 ng) than in the non-CCA group (95 [+ or -] 70 ng; Table 2). Young children (2-6 years of age) have, on average, a hand-to-mouth frequency of 8-10/hr (Reed et al. 1999; Tulve et al. 2002). Young children putting hands and/or fingers in their mouths could lead to ingestion of arsenic that is on their hands (Tulve et al. 2002). Therefore, CCA-treated wood structures in playgrounds could potentially contribute to a higher exposure to arsenic by children playing in these playgrounds. It is interesting to note that although there is a significantly higher concentration of arsenic on the hands of children playing in the CCA playgrounds, there is no significant difference in the concentration of arsenic in the sand/soil. A most likely reason responsible for this difference is that children in the CCA playgrounds may be in contact with CCA-treated wood structures directly. It has been found that arsenic from the CCA-treated wood can be transferred onto the hands when rubbing hands against the wood surface [California Department of Health Services Department of Health Services may refer to:
CDHS Colorado Department of Human Services CDHS Center for Development of Human Services CDHS Central Dauphin High School (Harrisburg, PA, USA) CDHS Comprehensive Data Handling System ) 1987]. This is consistent with the results of analysis of swipe samples of CCA-treated wood carried out by others (Osmose Research Division 1983) and by us (data not shown). A subsequent investigation comparing hand washing from children in contact with CCA-treated wood and the same group of children playing with sand in CCA playgrounds suggests that direct contact of hands with CCA-treated wood is a major contributor to the increases in concentration of arsenic on children's hands (Lu X and Le XC, unpublished data). The maximum amount of arsenic on children's hands was < 4 [micro]g (Table 4). This is equivalent to 0.22 [micro]g/kg body weight using a default body weight value of 17.8 kg for young children (2-6 years of age). With a safe conservative assumption that all the arsenic on children's hands is ingested, the measured value is below the estimated average daily intake 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 from water and food by Canadian children, which is approximately 0.6 [micro]g/kg body weight (CCME 1995). The average daily dietary ingestion of total arsenic was estimated to be 38 [micro]g (15 [micro]g for children 1-4 years of age) for Canada (Dabeka et al. 1993), 62 [micro]g for the United States (Gartrell et al. 1988), 89 [micro]g for the United Kingdom (Food Additives food additives, substances added to foods by manufacturers to prevent spoilage or to enhance appearance, taste, texture, or nutritive value. By quantity, the most common food additives are flavorings, which include spices, vinegar, synthetic flavors, and, in the and Contaminants Committee 1984), 55 [micro]g for New Zealand New Zealand (zē`lənd), island country (2005 est. pop. 4,035,000), 104,454 sq mi (270,534 sq km), in the S Pacific Ocean, over 1,000 mi (1,600 km) SE of Australia. The capital is Wellington; the largest city and leading port is Auckland. (Dick et al. 1978), and 160-280 [micro]g for Japan (Tsuda et al. 1995). A range of arsenic species that have different toxicities may be present in food (Le et al. 2004). Estimated daily dietary intake of inorganic arsenic was 8.3-14 [micro]g in the United States (Yost et al. 1998), 4.8-12.7 [micro]g in Canada (Yost et al. 1998), and 15-211 [micro]g in Taiwan (Schoof et al. 1998). It is important to point out to the general public that arsenic is naturally present in the soil and sand regardless of whether the playgrounds contain CCA-treated wood structures. An important approach to reducing children's exposure to arsenic is to wash hands after playing, particularly after contact with CCA-treated wood. We have measured arsenic in sequential hand washings and found that the most arsenic was present in the first hand washing (data not shown). This confirms that hand washing is effective in removing arsenic from hands. Conclusions Children playing in playgrounds constructed with CCA-treated wood have approximately five times more arsenic on their hands than do those playing in playgrounds that do not have CCA-treated wood structures. The higher values of arsenic on the hands of children playing in the CCA playgrounds are probably caused by direct contact with CCA-treated wood. Most of the arsenic on children's hands is water soluble and is readily washed off with water. We recommend that children wash their hands after playing to reduce their potential exposure to arsenic. The concentrations of arsenic in soil/sand samples from both CCA and non-CCA playgrounds were below the Canadian guideline levels. The maximum amount of arsenic on children's hands from the entire group of study participants was < 4 [micro]g. This amount is lower than the average daily intake of arsenic from water and food. This study provides direct measurements of the amount of arsenic on children's hands. The results--along with other information, such as the frequency and habit of hand-to-mouth activity, efficiency of transfer of arsenic from hands to mouth, and repeated contact of hands with CCA-treated wood surface after hand-to-mouth activity--are useful for assessing children's exposure to arsenic.
Table 1. Concentration of arsenic (mg/kg) in sand/soil
samples collected from 16 playgrounds.
Playground Mean [+ or -] SD Median Range
CCA playgrounds
A 3.9 [+ or -] 2.6 3.8 1.4-6.5
C 1.2 [+ or -] 0.4 1.3 0.8-1.5
D 2.6 [+ or -] 2.0 1.6 1.3-4.9
F 3.4 [+ or -] 3.3 1.5 1.5-7.3
G 3.5 [+ or -] 1.4 3.1 1.3-6.0
I 2.2 [+ or -] 1.3 1.5 1.4-3.7
N 2.7 [+ or -] 2.6 1.6 0.8-5.6
R 3.5 [+ or -] 1.5 2.9 1.7-7.4
Overall 3.3 [+ or -] 1.7 2.9 0.8-7.4
Non-CCA playgrounds
B 1.8 [+ or -] 0.1 1.7 1.7-1.9
E 1.9 [+ or -] 0.1 1.9 1.8-2.0
H 3.3 [+ or -] 1.8 2.9 1.8-5.3
J 0.6 [+ or -] 0.1 0.6 0.5-0.7
K 2.2 [+ or -] 0.6 2.3 1.6-2.8
L 1.1 [+ or -] 0.8 0.7 0.5-2.0
M 1.2 [+ or -] 0.4 1.3 0.8-1.5
O 3.0 [+ or -] 1.3 2.2 2.2-4.5
Overall 1.9 [+ or -] 1.2 1.8 0.5-5.3
Table 2. Amount of water-soluble arsenic (ng) in hand
washing from children playing in the 16 playgrounds.
Playground Mean [+ or -] SD Median Range
CCA playgrounds
C 272 [+ or -] 152 330 50-479
D 956 [+ or -] 247 871 570-1,263
F 167 [+ or -] 84 167 108-226
G 670 [+ or -] 300 691 185-1,126
I 359 [+ or -] 223 271 84-784
N 196 [+ or -] 157 147 8-500
R 987 [+ or -] 1,161 485 163-3,516
Overall 501 [+ or -] 512 398 8-3,536
Non-CCA playgrounds
E 82 [+ or -] 27 79 51-113
H 68 [+ or -] 36 60 26-138
J 60 [+ or -] 44 51 23-136
K 123 [+ or -] 51 113 46-225
L 38 [+ or -] 13 39 19-56
M 215 [+ or -] 95 193 129-407
O 61 [+ or -] 37 58 11-114
Overall 95 [+ or -] 70 72 11-407
Table 3. Amounts of sand and sand arsenic collected in hand
washing from children playing in the 16 playgrounds
Sand (mg)
Playground Mean [+ or -] SD Median Range
CCA playgrounds
A 24.2 [+ or -] 24.9 13.9 5.0-77.7
C 21.9 [+ or -] 23.0 14.0 5.2-76.5
D 26.7 [+ or -] 10.3 26.3 15.0-42.8
F 20.4 [+ or -] 21.8 20.4 5.0-35.8
G 31.7 [+ or -] 20.4 29.5 3.3-67.7
I 18.9 [+ or -] 11.1 14.5 6.6-38.2
N 11.4 [+ or -] 10.1 7.7 0.8-38.3
R 29.7 [+ or -] 31.0 16.4 10.8-95.8
Overall 22.0 [+ or -] 19.1 16.4 0.8-95.8
Non-CCA playgrounds
B 40.5 [+ or -] 40.3 28.7 7.2-116.2
E 21.3 [+ or -] 13.2 21.2 6.5-37.3
H 15.1 [+ or -] 9.2 13.0 5.7-38.2
J 27.5 [+ or -] 32.9 13.3 9.1-86.1
K 25.3 [+ or -] 10.8 24.8 10.2-45.7
L 9.0 [+ or -] 2.9 9.5 3.7-11.7
M 38.2 [+ or -] 23.9 45.3 10.8-73.1
O 23.8 [+ or -] 22.6 15.3 3.8-70.2
Overall 25.2 [+ or -] 23.3 16.6 3.7-116.2
Arsenic (ng)
Playground Mean [+ or -] SD Median Range
CCA playgrounds
A 70 [+ or -] 72 40 15-225
C 26 [+ or -] 28 17 6-92
D 69 [+ or -] 27 68 39-111
F 70 [+ or -] 75 70 17-123
G 110 [+ or -] 71 103 11-235
I 42 [+ or -] 24 32 15-84
N 30 [+ or -] 27 20 2-102
R 102 [+ or -] 106 56 37-329
Overall 60 [+ or -] 60 43 2-329
Non-CCA playgrounds
B 72 [+ or -] 71 51 13-205
E 41 [+ or -] 25 40 12-71
H 50 [+ or -] 31 43 19-127
J 17 [+ or -] 20 8 5-52
K 56 [+ or -] 23 55 23-102
L 10 [+ or -] 3 10 4-12
M 47 [+ or -] 30 56 13-90
O 71 [+ or -] 67 46 11-208
Overall 49 [+ or -] 44 42 4-208
Table 4. Amounts of total arsenic (ng) in hand washing
from children playing in the 16 playgrounds
Playground Mean [+ or -] SD Median Range
CCA playgrounds
A 587 [+ or -] 385 555 48-1,260
C 298 [+ or -] 172 356 57-571
D 1,025 [+ or -] 252 947 646-1,325
F 237 [+ or -] 158 237 125-349
G 780 [+ or -] 350 850 196-1,295
I 400 [+ or -] 229 297 168-855
N 225 [+ or -] 170 204 8-563
R 1,089 [+ or -] 1,256 561 219-3,865
Overall 561 [+ or -] 552 416 8-3,865
Non-CCA playgrounds
B 163 [+ or -] 134 102 57-420
E 122 [+ or -] 40 134 74-171
H 118 [+ or -] 55 111 48-265
J 77 [+ or -] 63 59 31-188
K 175 [+ or -] 55 163 69-281
L 48 [+ or -] 15 49 23-67
M 262 [+ or -] 112 250 142-475
O 132 [+ or -] 92 122 23-277
Overall 143 [+ or -] 95 124 23-475
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Washington, DC:U.S. Environmental Protection Agency, Office of Pesticide Programs, Antimicrobials Division. U.S. EPA. 2003b. A Probabilistic (probability) probabilistic - Relating to, or governed by, probability. The behaviour of a probabilistic system cannot be predicted exactly but the probability of certain behaviours is known. Such systems may be simulated using pseudorandom numbers. Exposure Assessment for Children Who Contact CCA-Treated Playsets and Decks. Using the Stochastic By guesswork; by chance; using or containing random values. stochastic - probabilistic Human Exposure and Dose Simulation Model for the Wood Preservative Exposure Scenario (SHEDS-Wood). Draft Preliminary Report. Washington, DC:U.S. Environmental Protection Agency, Office of Research and Development and Office of Pesticide Program. U.S. EPA. 2004. Chromated Copper Arsenicals (CCA) and Its Use as a Wood Preservative. Washington, DC:U.S. Environmental Protection Agency. Available: http:// www.epa.gov/pesticides/factsheets/chemicals/1file.htm [accessed 25 March 2004]. Wester RC, Hui X, Barbadillo S Barbadillo is a village and municipality in the province of Salamanca, western Spain, part of the autonomous community of Castile-Leon. It is located 22 kilometres from the city of Salamanca and has a population of 517 people. The municipality covers an area of 36.1 km². , Maibach H, Lowney YW, Schoof RA, et al. 2004. In vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. percutaneous percutaneous /per·cu·ta·ne·ous/ (per?ku-ta´ne-us) performed through the skin. per·cu·ta·ne·ous adj. Passed, done, or effected through the unbroken skin. absorption of arsenic from water and CCA-treated wood residue. Toxicol Sci 79:287-295. Yost LJ, Schoof RA, Aucoin R. 1998. Intake of inorganic arsenic in the North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. diet. Hum Ecol Risk Assess 4:137-152. Zagury G, Samson R, Deshenes L. 2003. Occurrence of metals in soil and groundwater near chromated copper arsenate treated utility poles A utility pole, telegraph pole, telephone pole, power pole, or telegraph post is a post or pole upon which telecommunication network equipment is situated. . J Environ Qual 32:507-514. Elena Kwon, (1) Hongquan Zhang, (1) Zhongwen Wang, (1) Gian S. Jhangri, (1) Xiufen Lu, (1) Nelson Fok, (2) Stephan Gabos, (3) Xing-Fang Li, (1) and X. Chris Le (1) (1) Department of Public Health Sciences, University of Alberta, Edmonton, Alberta, Canada; (2) Environmental Health, Capital Health, Edmonton, Alberta, Canada; (3) Health Surveillance Branch, Alberta Health and Wellness, Edmonton, Alberta, Canada Address correspondence to X.C. Le, Department of Public Health Sciences, Faculty of Medicine, University of Alberta, 10-102 Clinical Sciences Building, Edmonton, Alberta, Canada T6G 2G3. Telephone: (780) 492-6416. Fax: (780) 492-7800. E-mail: xc.le@ualberta.ca We thank P. Cardinal, D. Ehrman, C. Englot, D. Kirchner, R. Zolkiewski, W. Ma, and K. Carastathis for their contribution to this study; EnviroTest Laboratories (Edmonton, Alberta, Canada) for performing the analysis of arsenic in soil samples; and the participating children and their parents for their cooperation. This study was supported by the Natural Sciences and Engineering Research Council The Natural Sciences and Engineering Research Council (NSERC) is a Canadian government division that provides grants for research in the natural sciences and in engineering. In 2004-2005, it will invest CAD $850 million in university-based research and training. , the Alberta Heritage Foundation for Medical Research, Alberta Health and Wellness, Capital Health, the City of Edmonton, and Environment Canada Environment Canada (EC), legally incorporated as the Department of the Environment under the Department of the Environment Act ( R.S., 1985, c. E-10 ), is the department of the Government of Canada with responsibility for coordinating environmental policies and . The authors declare they have no competing financial interests. Received 21 April 2004; accepted 17 June 2004. |
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