The SHEDS-Wood model: incorporation of observational data to estimate exposure to arsenic for children playing on CCA-treated wood structures.BACKGROUND: Lumber lumber, term for timber that has been cut into boards for use as a building material. The major steps in producing lumber involve logging (the felling and preparation of timber for shipment to sawmills), sawing the logs into boards, grading the boards according to 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 ) compounds has been used in residential outdoor wood structures and public playgrounds. 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 conducted 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. assessment of children's 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. using the Stochastic By guesswork; by chance; using or containing random values. stochastic - probabilistic Human Exposure and Dose Simulation model for the 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. scenario (SHEDS-Wood). The assessment relied on data derived from an experimental study conducted using adult volunteers and designed to result in maximum hand and wipe (1) To completely erase data from memory or the hard disk. See file wipe. (2) A digital video effect that places one image over another. Although there are a myriad varieties, the classic wipe is a scene transition where the next scene slides horizontally or loadings to estimate the residue-skin transfer efficiency. Recent analyses of arsenic hand-loading data generated by studies of children actively involved in playing on CCA-treated structures indicate that the transfer efficiency coefficient coefficient /co·ef·fi·cient/ (ko?ah-fish´int) 1. an expression of the change or effect produced by variation in certain factors, or of the ratio between two different quantities. 2. and hand-loading estimates derived from the experimental study significantly overestimate o·ver·es·ti·mate tr.v. o·ver·es·ti·mat·ed, o·ver·es·ti·mat·ing, o·ver·es·ti·mates 1. To estimate too highly. 2. To esteem too greatly. the amount that occurs during actual play. OBJECTIVES: Our goal was to assess the feasibility of using child hand-loading data in the SHEDS-Wood model and their impact on exposure estimates. METHODS: We used data generated by the larger of the studies of children in SHEDS-Wood, instead of the distributions used by U.S. EPA. We compared our estimates of the lifetime average daily dose (LADD LADD Lifetime Average Daily Dose LADD Lacrimoauriculodentodigital (syndrome) LADD Light and Darkness Dragon (YuGiOh trading cards) LADD Low-Angle Drogue Delivery LADD Lowest Acceptable Daily Dose ) and average daily dose (ADD) with those derived by the U.S. EPA. RESULTS: Our analysis indicates that data from observational studies observational studies, n.pl an investigational method involving description of the associations be-tween interventions and outcomes. Outcomes research and practice audits are examples of this investigational method. of children can be used in SHEDS-Wood. Our estimates of the mean (and 95th percentile percentile, n the number in a frequency distribution below which a certain percentage of fees will fall. E.g., the ninetieth percentile is the number that divides the distribution of fees into the lower 90% and the upper 10%, or that fee level ) LADD and ADD were 27% (10%) and 29% (15%) of the estimates derived by U.S. EPA. CONCLUSION: We recommend that the SHEDS-Woods model use data from studies of children actively playing on playsets to more accurately estimate children's actual exposures to CCA. KEY WORDS: arsenic, CCA, children's exposure, probabilistic exposure modeling, observational studies, SHEDS-Wood. 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 115:781-786 (2007). doi:10.1289/ehp.9741 available via http://dx.doi.org/ [Online 21 February 2007] ********** Chromated copper arsenates (CCA) are chemical preservatives preservatives, n.pl food additives that hinder spoilage by reducing the growth of microorganisms. Include nitrates and nitrites, benzoates and sulfites, and many others. used to pressure-treat wood to protect it from rotting due to moisture, insects Insects See also ants; bees; biology; butterflies; zoology. acarophobia a fear of itching or of the mites or ticks that cause it. aeroscepsy, aeroscepsis perception by means of the air, said to be a function of the antennae of insects. , and microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. agents. CCA-treated wood has been used widely in outdoor residential structures (e.g., decks, porches, playsets, landscaping) and public playgrounds for the last three decades. In 2002, the U.S. Environmental Protection Agency (EPA) announced a voluntary decision by the pressure-treated wood pressure-treated wood, wood that has had a liquid preservative forced into it in order to protect against deterioration due to rot or insect attack. The most commonly used preservatives are chromated copper arsenate (CCA) and pentachlorophenol. industry to phase out the use of CCA in products destined des·tine tr.v. des·tined, des·tin·ing, des·tines 1. To determine beforehand; preordain: a foolish scheme destined to fail; a film destined to become a classic. 2. for consumer markets; however, existing outdoor wood structures made with CCA-treated wood remain in service. As a part of the reregistration review of CCA-treated wood by the U.S. EPA under the Federal Insecticide, Fungicide, and Rodenticide Act The Federal Insecticide, Fungicide, and Rodenticide Act (or FIFRA), 7 U.S.C. 136 et seq. is a United States federal law that set up the basic US system of pesticide regulation to protect applicators, consumers and the environment. (FIFRA FIFRA Federal Insecticide, Fungicide and Rodenticide Act of 1972 ), the U.S. EPA Office of Research and Development (ORD) National Exposure Research Laboratory (NERL NERL National Exposure Research Laboratory ) developed the Stochastic Human Exposure and Dose Simulation model for assessing residential and playground Playground - A visual language for children, developed for Apple's Vivarium Project. OOPSLA 89 or 90? exposures to wood preservatives (SHEDS-Wood) and applied it to assess children's exposure to arsenic from CCA-treated structures (U.S. EPA 2005; Xue xue (shwā), n Chinese term for points in the skin through which wind may flow. et al. 2006; Zartarian et al. 2006). The SHEDS-Wood model is a probabilistic model designed to simulate simulate - simulation aggregate exposures and doses for population cohorts and multimedia chemicals, by using data from time-location-activity diaries compiled in U.S. EPA's Consolidated Human Activity Database (CHAD) (McCurdy et al. 2000). The model input parameters are grouped in four categories: a) activity factors (including parameters such as the average number of days that a child plays on or near playsets/decks, fraction of time a child is actually on the playset/deck), b) exposure factors (including frequency of hand-to-mouth activity, washing events, 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. loading, residue residue n. in a will, the assets of the estate of a person who has died with a will (died testate) which are left after all specific gifts have been made. Typical language: "I leave the rest, residue and remainder [or just residue] of my estate to my grandchildren. skin transfer efficiency), c) dose factors (including dermal and gastrointestinal gastrointestinal /gas·tro·in·tes·ti·nal/ (-in-tes´ti-n'l) pertaining to or communicating with the stomach and intestine. gas·tro·in·tes·ti·nal adj. Abbr. absorption fractions), and d) environmental media parameters (including soil and residue concentrations). The values assigned as·sign tr.v. as·signed, as·sign·ing, as·signs 1. To set apart for a particular purpose; designate: assigned a day for the inspection. 2. to the input parameters in the U.S. EPA's and Zartarian et al.'s assessments were from data generated by a) experimental studies (e.g., for the dermal loading variable and the residue skin transfer efficiency), b) observational studies (e.g., for frequency of hand-to-mouth activity and the fraction of hand mouthed), or c) expert judgment (e.g., for the number of days on playgrounds and the fraction of time spent on playsets). Among these parameters, the model is most sensitive to the amount of arsenic that accumulates on a child's hand. Sensitivity and uncertainty assessments conducted by the U.S. EPA (Xue et al. 2006) indicated that the residue skin transfer efficiency and the wood surface arsenic residues--the parameters used to estimate maximum loadings in the U.S. EPA's (2005) and Zartarian et al.'s (2006) analyses--are the two most important variables influencing the estimation estimation In mathematics, use of a function or formula to derive a solution or make a prediction. Unlike approximation, it has precise connotations. In statistics, for example, it connotes the careful selection and testing of a function called an estimator. of absorbed doses ab·sorbed dose n. The quantity of radiation energy, expressed in rads, that is administered or absorbed per unit mass of target. absorbed dose . The U.S. EPA's SHEDS-Wood model, as well as other assessments of childhood arsenic exposure from 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 [e.g., Consumer Product Safety Commission (CPSC CPSC Consumer Product Safety Commission (US) CPSC Computer Science (course) CPSC Canadian Plastics Sector Council (Ottawa, ON, Canada) CPSC Chemical Processing Safety Committee ) 1990; Hemond and Solo-Gabriele 2004], have relied on exposure assessments conducted using assumptions and modeling, rather than using actual levels of arsenic on children's hands after playing on structures made with CCA-treated wood. The report of the FIFRA Scientific Advisory Panel (SAP) Meeting (U.S. EPA 2001), held 23-25 October 2001 to review the U.S. EPA's preliminary assessment of exposures to CCA-treated wood, recommended "that the EPA conduct direct hand-loading measurements in samples of children (preferably pref·er·a·ble adj. More desirable or worthy than another; preferred: Coffee is preferable to tea, I think. pref ) or adults (if human subjects concerns intervene intervene v. to obtain the court's permission to enter into a lawsuit which has already started between other parties and to file a complaint stating the basis for a claim in the existing lawsuit. ). The best empirical data may actually be collected through sampling of children who are actively involved in playing on CCA treated structures." Two recent observational studies improve the assessment of exposure by directly measuring the level of arsenic on children's hands after contact with CCA-treated wood. The first study by Kwon et al. (2004), with follow-up follow-up, n the process of monitoring the progress of a patient after a period of active treatment. follow-up subsequent. follow-up plan by Wang (Wang Laboratories, Inc., Lowell, MA) A computer services and network integration company. Wang was one of the major early contributors to the computing industry from its founder's invention that made core memory possible, to leadership in desktop calculators and word processors. et al. (2005), included 130 children (66 playing on playgrounds with CCA-treated playsets and 64 playing on playgrounds with playsets not constructed with CCA-treated wood); the second (Shalat et al. 2006) included 11 children playing Album Info
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Typically one-ten years. intermediate-term Of or relating to an investment with an expected holding period somewhere between short-term and long-term. average daily dose (ADD). Materials and Methods The SHEDS-Wood model. The SHEDS-Wood model estimates exposure to and dose of arsenic using age- and sex-representative time-location-activity diaries for 1- to 6-year-old children extracted from the CHAD database. Each of the diaries used includes different macro-activities of children over the course of a day. The macro-activities last from a few minutes to an hour, during which time potential contact with CCA-treated playsets or decks may occur. Because the macro-activities reported in CHAD are not sufficiently detailed to indicate exactly whether and when contact with CCA-treated wood occurs, SHEDS-Wood models the contact with CCA-treated wood probabilistically prob·a·bil·is·tic adj. 1. Of, relating to, or based on probabilism. 2. Of, based on, or affected by probability, randomness, or chance: "The Big Bang universe is . . . 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 the macroactivities that take place in what it defines as "suitable locations." Pathway-specific exposure and dose time profiles are then generated from the sequence of contact events. Contact or encounter can occur only at places where the chemical is present. Once such contact occurs, the chemical remains present on or in an individual until it is removed or excreted. The removal processes in SHEDS-Wood involve dermal absorption, oral ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. (through hand-to-mouth activity), washing, and bathing, and are assumed to occur sequentially in this order. In addition, the model assumes that the gastrointestinal (GI) tract is voided void·ed adj. Heraldry Having the central area cut out or left vacant, leaving an outline or narrow border: a voided lozenge. once per day at 0600, at which time the GI tract loading is reset to zero. SHEDS-Wood includes an adjustment to limit the net transfer of chemical from the wood to the skin, at a point at which a maximum hand load of arsenic has been reached after multiple contacts with CCA-treated wood surfaces. The data used to estimate the distribution of maximum hand loadings were generated by an experimental study in which adult volunteers rubbed CCA-treated wood blocks with their hands (for 20 passes), and polyester polyester, synthetic fiber, produced by the polymerization of the product formed when an alcohol and organic acid react. The outstanding characteristic of polyesters is their ability to resist wrinkling and to spring back into shape when creased. wipes were pulled back and forth across the blocks (10 passes, followed by a 90[degrees] rotation, and an additional 10 passes) [American Chemistry Council The American Chemistry Council (ACC), formerly known as the Chemical Manufacturers' Association, is an industry trade association for American chemical companies. The American Chemistry Council (ACC) is in charge of improving the public image of the chemical industry. (ACC See adaptive cruise control. ) 2003]. A distribution representing the residue-skin transfer efficiency parameter (1) Any value passed to a program by the user or by another program in order to customize the program for a particular purpose. A parameter may be anything; for example, a file name, a coordinate, a range of values, a money amount or a code of some kind. was derived as the ratio of the hand-rinse results to the wood-block residue (cloth wipe) results. SHEDS-Wood models the maximum hand loading as the product of the wood surface residue concentration times the transfer efficiency ("default" option) or as a user-specified distribution. The U.S. EPA (2005) used the default SHEDS-Wood model option in its "base" analysis, and used the hand wipe data generated by the ACC experimental study in a "special analysis" to assess the impact of using "dislodgeable residues directly rather than total residues multiplied mul·ti·ply 1 v. mul·ti·plied, mul·ti·ply·ing, mul·ti·plies v.tr. 1. To increase the amount, number, or degree of. 2. Mathematics To perform multiplication on. by transfer efficiency." The Kwon et al. study. The Kwon et al. (2004) study was conducted in Edmonton, Alberta, Canada, and was supported in part 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 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 ; 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. Sixteen of the 316 playgrounds owned and operated by the City of Edmonton were selected for the study. The playgrounds selected were representative of other playgrounds in the City of Edmonton with respect to age, manufacturers, and geographic location. Eight of the playgrounds contained CCA-treated wood structures, and the other eight did not. A total of 130 children (66 playing on playgrounds with CCA-treated playsets and 64 playing on playgrounds with playsets not constructed with CCA-treated wood) participated in the study. On average, seven to nine children participated at each playground. Written informed parental consent Parental consent laws (also known as parental involvement or parental notification laws) in some countries require that one or more parents consent to or be notified before their minor child can legally engage in certain activities. was obtained; children for whom parental consent was not obtained were excluded from the study. The time of arrival at the playground, the length of play, and the ages of the participating children were recorded. After the children finished playing, their hands were rinsed with de-ionized water, and the hand-washing samples were filtered and 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. was 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. . The data summaries were published by Kwon et al. (2004). In response to comments by Kissel This article is about a dessert. For the car company, see Kissel Motor Car Company. Kissel (Kisiel in Polish, kiisseli in Finnish) is a popular dessert in Eastern and Northern Europe. (2005), the arsenic levels in the insoluble insoluble /in·sol·u·ble/ (in-sol´u-b'l) not susceptible of being dissolved. in·sol·u·ble adj. Not soluble. residue collected on the filter were analyzed, and the results were published by Wang et al. (2005) in rejoinder The answer made by a defendant in the second stage of Common-Law Pleading that rebuts or denies the assertions made in the plaintiff's replication. The rejoinder allows a defendant to present a more responsive and specific statement challenging the allegations made . From here on, we will use "Kwon et al." to refer to the data from the Kwon et al. and the Wang et al. studies. Hand-loading data. The raw data on total arsenic (soluble soluble /sol·u·ble/ (sol´u-b'l) susceptible of being dissolved. sol·u·ble adj. Capable of being dissolved, especially easily dissolved. arsenic + insoluble arsenic on hands) in hand washings  This article or section contains .The purpose of Wikipedia is to present facts, not to teach subject matter. from each of the 130 children were obtained from the study authors (Lee XC, personal communication). The total arsenic collected in the hand-washing water (insoluble arsenic on the filter plus water-soluble arsenic in the filtrate) was 934 [+ or -] 940 ng for the children playing on the CCA-treated playgrounds and 265 [+ or -] 311 ng for the children playing on the non-CCA-treated playgrounds. We used the total arsenic data available for the children playing on CCA-treated playgrounds and did not adjust these data to reflect the background arsenic levels detected on the hands of children playing on non-CCA-treated playgrounds. Of the 66 children playing on the eight CCA-treated decks, 53 were 1-6 years of age, the age range considered in the assessments by the U.S. EPA (2005) and Zartarian et al. (2006). The remaining 13 children (one child 8 months of age, and 12 children [greater than or equal to] 7 years of age) were outside the age range considered in U.S. EPA's assessment; thus, their data were not included in our analysis. Further, data were also excluded from one 2-year-old child whose soluble arsenic value was considerably lower than the levels measured for the other children and for whom no insoluble arsenic level was reported. In this analysis, we used the total arsenic data available for the remaining 52 children 1-6 years of age playing on CCA-treated playgrounds. Data analysis. The Kwon et al. hand-loading data are in total arsenic mass (for two hands), whereas the maximum hand-loading parameter in the SHEDS-Wood model is expressed as arsenic mass per square centimeter centimeter (sĕn`tĭmē'tər), abbr. cm, unit of length equal to 0.01 meter, the basic unit of length in the metric system. The centimeter is the unit of length in the cgs system. It is approximately equal to 0. of skin. Hence, hand-loading levels in the Kwon et al. study were transformed from total arsenic loadings for two hands to micrograms arsenic per square centimeter of skin for use in the SHEDS-Wood model, using formulas and assumptions similar to those used by the model. Specifically, it was assumed that 50.5% of the time spent on the playground was actually spent on the play structure, as opposed to "near" the play structure ([F.sub.playset]), and that 74% of the hand skin surface area contacts wood surface residues per 20 min ([F.sub.contact,res,j]) (these percentages correspond to the averages of the distributions used in SHEDS-Wood for these parameters). Estimates of the hand (HSA HSA Health Savings Account (US) HSA Human Serum Albumin HSA Human Services Agency (Nevada) HSA Health Services Agency HSA Health and Safety Authority (Ireland) ) and total body surface areas (TBSA TBSA Total Body Surface Area TBSA The Black Sword Alliance (gaming) TBSA TrailBike Sportsman Association ) were derived using formulas similar to those used in SHEDS-Wood (Table 1). Thus, arsenic hand loading per square centimeter were derived as: Hand loading ([micro]g/[cm.sup.2]) = [Total arsenic mass (ng)/1,000]/([TBSA ([m.sup.2])] x 10,000 x [HAS (%)] x Minimum {[[F.sub.contact,res,j]/20 (rate/min) x Time on playground (min) x [F.sub.playset]], 1}) [1] Because the assumption that 74% of the hand skin surface area contacts wood surface residues per 20 min implies that 100% of the hand would contact residues after about 30 min, the above formula caps this parameter at 1 for children spending > 1 hr on the playground. We used linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. analysis to assess the association between arsenic hand loadings and time spent on the playgrounds and used SHEDS-Wood to estimate LADD and intermediate-term (90-day) ADD for children playing on CCA-treated wood structures. Results Arsenic hand washing data and association with time on playground. Table 2 summarizes the distribution of total arsenic in hand-washing data from the Kwon et al. study (nanograms) and the transformed distribution (micrograms per square centimeter) and compares these distributions with the hand-loading distribution used by U.S. EPA in SHEDS-Wood (U.S. EPA 2005). The 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. and 95th percentile estimate of the hand-loading distribution derived from the Kwon et al. study (0.0016 [micro]g/[cm.sup.2] and 0.0091 [micro]g/[cm.sup.2]) are more than an order of magnitude A change in quantity or volume as measured by the decimal point. For example, from tens to hundreds is one order of magnitude. Tens to thousands is two orders of magnitude; tens to millions is three orders of magnitude, etc. lower than those of the distribution used by U.S. EPA in SHEDS-Wood (0.0334 [micro]g/[cm.sup.2] and 0.1061 [micro]g/[cm.sup.2]). The regression analysis In statistics, a mathematical method of modeling the relationships among three or more variables. It is used to predict the value of one variable given the values of the others. For example, a model might estimate sales based on age and gender. indicated that total arsenic levels showed little correlation ([R.sup.2] = 0.0048) with the length of play time (Figure 1), suggesting that hand loading achieves a steady-state level steady-state level said of a medication regimen; a plateau. after a short period of play. This result is consistent with the U.S. EPA's conclusion that saturation saturation, of an organic compound saturation, of an organic compound, condition occurring when its molecules contain no double or triple bonds and thus cannot undergo addition reactions. was achieved in the ACC experimental adult study (U.S. EPA 2005). The distribution of hand loadings derived from this study can thus be used in SHEDS-Wood to represent maximum hand loading of arsenic in lieu of Instead of; in place of; in substitution of. It does not mean in addition to. the distribution used by U.S. EPA and the distribution derived from the experimental data in adults. LADD and ADD estimates. We derived estimates of the LADD and intermediate-term (90-day) ADD for the upper-bound ("warm climate") scenario in SHEDS-Wood using the same values and distributions as those used by U.S. EPA's (2005) assessment for all input parameters, except for the maximum dermal loading parameter, for which we used the maximum value of the arsenic hand loadings (expressed in micrograms per square centimeter) derived from the Kwon et al. data. Table 3 summarizes the values and distributions used for the input parameters in SHEDS-Wood. Tables 4 and 5 summarize sum·ma·rize intr. & tr.v. sum·ma·rized, sum·ma·riz·ing, sum·ma·riz·es To make a summary or make a summary of. sum estimates of the LADD and the intermediate-term ADD derived using the maximum value for hand loading based on the Kwon et al. study and compare these estimates with those derived by the U.S. EPA (2005) for children playing on CCA-treated decks and playsets. The mean LADD estimates derived by setting the maximum dermal loading parameter at values derived from the Kwon et al. study were 27% of the estimates derived by the U.S. EPA. Larger differences were observed between the U.S. EPA's estimates of the upper-percentile exposure distributions and the estimates derived using the Kwon et al. study data. Specifically, the 90th and 99th percentile estimates derived by setting the maximum dermal loading parameter at values derived from the Kwon et al. study were 14% and 10% of the estimates derived by the U.S. EPA. Similarly, mean, 90th, and 95th percentile ADD estimates derived by setting the maximum dermal loading parameter at values derived from the Kwon et al. study were 29%, 19%, and 15%, respectively, of the estimates derived by the U.S. EPA (2005). Discussion The data used by the U.S. EPA (2005) and Zartarian et al. (2006) in SHEDS-Wood to represent transfer efficiency and maximum dermal loadings were derived from an experimental study conducted on adults that was designed to achieve the maximum hand and wipe loading of dislodgeable arsenic from CCA-treated wood. Particularly, the study used wetted hands, weights, a large number of passes, and no allowance for brush-off brush·off also brush-off n. An abrupt dismissal or snub. Noun 1. brush-off - a curt or disdainful rejection rejection - the act of rejecting something; "his proposals were met with rejection" . Such a study does not reproduce re·pro·duce v. 1. To produce a counterpart, an image, or a copy of something. 2. To bring something to mind again. 3. To generate offspring by sexual or asexual means. typical children's exposure on playsets. The FIFRA SAP Meeting (U.S. EPA 2001) had recommended that direct hand-loading measurements for children who are "actively involved in playing on CCA treated structures" be obtained and used. The Kwon et al. study (2004; Wang et al. 2005) provides such data and indicates that the experimental data used by the U.S. EPA (2005) and Zartarian et al. (2006) overestimate the arsenic Residue-skin transfer efficiency factor and the arsenic hand loadings that occur during actual play. The geometric mean and maximum hand-loading levels from the combined soluble and insoluble arsenic were 0.3 [micro]g and 4.7 [micro]g, respectively. If we assume, conservatively, that only the palms of the children's hands contacted the residue, the adjusted geometric mean and maximum of the hand loadings become 0.004 [micro]g/[cm.sup.2] and 0.036 [micro]g/[cm.sup.2], respectively, much lower than the estimates derived from the lognormal distribution Lognormal distribution Pattern of frequency of occurrence in which the logarithm of the variable follows a normal distribution. Lognormal distributions are used to describe returns calculated over periods of a year or more. used by the U.S. EPA (2005) and Zartarian et al. (2006) (geometric mean: 0.033 [micro]g/[cm.sup.2]; 99th percentile: 0.272 [micro]g/[cm.sup.2]). Using assumptions similar to those used in SHEDS-Wood for body and hand surface areas, time spent on structure, and fraction of hand skin surface area contacting residues, to calculate the hand loadings per square centimeter results in even lower levels (Table 2). Furthermore, the hand-loading levels observed in the Kwon et al. study are consistent with those observed in a smaller but similar study conducted by Shalat et al. (2006). Zartarian et al. (2006) conclude that the U.S. EPA-estimated ADD is equivalent to what the 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. dose would be for the Kwon et al. study (Kwon et al. 2004; Wang et al. 2005). However, their conclusion is based on the assumption that all the arsenic on the children's hands is ingested and absorbed completely. This conservative assumption is contradicted by the inputs used in SHEDS-Wood by the U.S. EPA (2005) and Zartarian et al. (2006) to model exposure--namely, the fraction of dermal absorption, the fraction of gastrointestinal absorption, and the fraction of hand surface area mouthed by mouthing-event parameters. The mean of the background arsenic levels on children's hands, derived from hand washings of children playing on non-CCA-treated playgrounds, was 26% of the mean levels detected on the hands of children playing on CCA-treated playgrounds. In our analysis, we did not adjust the total arsenic collected in the hand-washing water for the children playing in CCA-treated playgrounds to reflect the background levels, and hence, may have overestimated arsenic exposure that may arise from playing in CCA-treated playgrounds. As with all observational studies, the Kwon et al. study (Kwon et al. 2004; Wang et al. 2005) has certain limitations. However, those limitations do not prevent use of the data to inform the exposure assessment. Potential limitations of the Kwon et al. study include the relatively small number of children, the fact that the study recorded time spent on the playgrounds, not time spent on the playsets, and the fact that the study did not include surface wipe analyses of the structures; hence, it is not possible to confirm that dislodgeable arsenic levels from the play structures in the Kwon et al. study are not lower than those measured in other studies. We address each of these concerns below. Sample size. Using a one-sided tolerance interval A tolerance interval, also known as a tolerance limit, is a statistical interval within which, with some confidence, a specified proportion of a population falls. approach, similar to that described in Hahn and Meeker Meeker may refer to: Places
having the quality of fluorescence. fluorescent antibody see fluorescence microscopy. fluorescent antibody test see fluorescence microscopy. tracer to study the soil loading on 12 children wearing short pants and short sleeves who played in soil for 20 min. The study not only included a much smaller number of children (n = 12) than did the Kwon et al. study, but it also refers to exposures that are of limited relevance to the exposure scenario in SHEDS-Wood, because the surface area of the hand that contacts hard surfaces such as playsets and decks is expected to be much smaller than the surface area that contacts soil. Similarly, SHEDS-Wood uses data from Leckie et al. (2000) to support the fraction of hand surface area mouthed per mouthing event and the frequency of hand-to-mouth activity. The sample size for this study consisted of 20 children, much smaller than the number of children included in Kwon et al. Time on playsets was not recorded. Although it is not possible to confirm that the children in the Kwon et al. study actually were on the playsets, significant differences were observed between hand loadings of children playing in playgrounds on CCA-treated playsets and of children playing in playgrounds with no CCA-treated playsets. Thus, even if some of the children in the Kwon et al. study did not play on the playsets, the data indicate that many of the children did play on the playset, particularly the children with the higher hand loadings. In our assessment, we used the maximum loading from the Kwon et al. study. The SHEDS-Wood model includes an adjustment to represent the probability that not all outdoor activities in what it considers potential playset locations do result in actual contact. Specifically, the SHEDS-Wood model includes such an adjustment, because a fraction of the activities recorded in CHAD at the locations considered by the model to be suitable for playset contact are not actually playset activities. We did not make this adjustment when the hand-loading levels were transformed from total arsenic loadings for two hands to micrograms arsenic per square centimeter of skin for use in the SHEDS-Wood model, because the children in the Kwon et al. study were on actual playgrounds, thus engaging in activities likely to result in contact with the treated structures. No surface wipe analyses. Although the Kwon et al. study did not include wipe analyses, data from other studies that did measure dislodgeable arsenic on wood structures from various geographic areas show consistent levels [ACC 2003 (samples collected from structures in Pennsylvania, Florida, and Georgia); CPSC 2003 (samples collected from structures in the Washington, DC, metropolitan area); Shalat et al. 2006 (samples collected from structures in Florida); Ursitti et al. 2004 (samples collected from structures in Toronto, Canada)]. Hence, we have no reason to believe that the dislodgeable arsenic levels from the structures in the Kwon et al. study would be different from those reported in these studies. Kissel (2005) point out that a potential limitation of the Kwon et al. study is that the hand-loading levels derived from the study may not reflect the amount already ingested. However, even if we adjust the levels derived from Kwon et al. using the mean of the distribution of hand-to-mouth dermal transfer fraction assumed in SHEDS-wood (0.78)--thus in fact assuming that the children in the Kwon et al. study licked lick v. licked, lick·ing, licks v.tr. 1. To pass the tongue over or along: lick a stamp. 2. To lap up. 3. the entire area of their hand that had contacted the arsenic residues--the levels used by the U.S. EPA (2005) would still be 50-80% higher than these adjusted levels. Hence, the potential amount removed by mouthing is unlikely to account for the difference we observed between our exposure estimates and those derived by the U.S. EPA (2005), particularly because we have conservatively used the maximum value derived from the Kwon et al. data in our analysis. The follow-up sensitivity and uncertainty analyses conducted by the U.S. EPA and Xue et al. (2006) indicate that residue-skin transfer efficiency and wood surface arsenic residues--the parameters used to estimate maximum loadings in the U.S. EPA (2005) and Zartarian et al. (2006) analyses--are the two most important variables influencing the estimation of absorbed doses. Therefore, hand-loading data collected from children during active play, such as those collected by Kwon et al. (2004), Wang et al. (2005), and Shalat et al. (2006), should be used to improve the accuracy of the dose and exposure estimates derived by the U.S. EPA using the SHEDS-Wood model. Conclusion We obtained the total arsenic hand-loading data from the Kwon et al. study and analyzed them to assess whether these data can be used in SHEDS-Wood to represent the maximum hand-loading parameter. Our analysis indicates that the measured hand loadings were not associated with the amount of time spent on the playground, suggesting that hand loading achieves a maximum level after a short period of play, and thus that these data can be used in the SHEDS-Wood model in lieu of the values used by the U.S. EPA (2005) and Zartarian et al. (2006) that depend on the experimental study. Using data collected through sampling of actual children playing on CCA-treated structures, such as the data from the Kwon et al. study, in SHEDS-Wood results in mean LADD and ADD estimates that are 27% and 29%, respectively, of the estimates derived by the U.S. EPA. Larger differences are observed at the upper percentiles, where our estimates are 14% and 19% (90th percentile) and 10% and 15%, respectively, of the estimates derived by the U.S. EPA (2005). Based on our analysis of child hand-loading data from observational studies of children, the U.S. EPA's current assessment overestimates children's potential exposure to dislodgeable arsenic from CCA-treated wood by up to 10-fold (U.S. EPA 2005). We recommend that the U.S. EPA use the data from this observational study In statistics, the goal of an observational study is to draw inferences about the possible effect of a treatment on subjects, where the assignment of subjects into a treated group versus a control group is outside the control of the investigator. in SHEDS-Wood to more accurately estimate children's actual exposure to dislodgeable arsenic. Our recommendation is consistent with the FIFRA SAP recommendation that the best empirical data for hand loading are those collected from children who are actively involved in playing on treated wood structures. REFERENCES ACC. 2003. Assessment of Exposure to Metals in CCA-Preserved Wood: Full study. Available: http://www.epa.gov/oscpmont/sap/meetings/2003/index.htm [accessed 26 March 2007]. CPSC (Consumer Product Safety Commission). 1990. Dislodgeable Arsenic on Playground Equipment Wood and The Estimated Risk of Skin Cancer. Memorandum. Available: http://www.cpsc.gov/library/foia/foia00/brief/woodpla2.pdf [accessed 18 January 2007]. CPSC (Consumer Product Safety Commission). 2003. Determination of Dislodgeable Arsenic Transfer to Human Hands and Surrogates from CCA-Treated Wood. Available: http://www.cpsc.gov/library/foia/foia03/brief/cca3.pdf [accessed 26 March 2007]. Hahn GJ, Meeker WQ. 1991. Statistical Intervals--A Guide for Practitioners. 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 : John Wiley John Wiley may refer to:
Hemond HF, Solo-Gabriele HM. 2004. Children's exposure to arsenic from CCA-treated wooden decks and playground structures. Risk Anal anal (a´n'l) relating to the anus. a·nal adj. 1. Of, relating to, or near the anus. 2. 24(1):51-64. Kissel JC. 2005. Arsenic on the hands of children [Letter]. Environ Health Perspect 113:A364. Kissel JC, Shirai JH, Richter KY, Fenske RA. 1998. Investigation of dermal contact with soil in controlled trials controlled trial Clinical research A clinical study in which one group of participants receives an experimental drug while the other receives either a placebo or an approved–'gold standard' therapy. See Blinding, Double-blinded. . J Soil Contam 7(6):737-752. Kwon E, Zhang H, Wang Z, Jhangri GS, Lu X, Fok N, et al. 2004. Arsenic on the hands of children after playing in playgrounds. Environ Health Perspect 112:1375-1380. Leckie JO, Naylor KA, Canales RA, Ferguson AC, Cabrera NL, Hurtado AL, et al. 2000. Quantifying Children's Microlevel Activity Data from Existing Videotapes. Reference No. U2F112OT-RT-99-001182. Stanford, CA:Stanford University Stanford University, at Stanford, Calif.; coeducational; chartered 1885, opened 1891 as Leland Stanford Junior Univ. (still the legal name). The original campus was designed by Frederick Law Olmsted. David Starr Jordan was its first president. . McCurdy T, Glen G, Smith L, Lakkadi Y. 2000. The National Exposure Research Laboratory's consolidated human activity database. J Expos Anal Environ Epidemiol 10:566-578. Shalat SL, Solo-Gabriele HM, Fleming LE, Buckley BT, Black K, Jimenez M, et al. 2006. A pilot study of children's exposure to CCA-treated wood from playground equipment. Sci Total Environ 367(1):80-88. Ursitti F, Vanderlinden L, Watson R, Campbell M. 2004. Assessing and managing exposure from arsenic in CCA-treated wood play structures. Can J Public Health 95:429-433. U.S. EPA. 1991. Guidelines guidelines, n.pl a set of standards, criteria, or specifications to be used or followed in the performance of certain tasks. for The Use of Anticipated Residues in Dietary Exposure Assessment. Washington, DC:U.S. Environmental Protection Agency. U.S. EPA. 2001. A Set of Scientific Issues Being Considered by the Environmental Protection Agency Regarding: Preliminary Evaluation of the Non-dietary Hazard and Exposure to Children from Contact with Chromated Copper Arsenate (CCA)-Treated Wood Playground Structures and CCA-Contaminated Soil. SAP Report No. 2001-12. Arlington, VA:U.S. Environmental Protection Agency. Available: http://www.epa.gov/scipoly/sap/meetings/2001/october/ccawood.pdf [accessed 29 January 2007]. U.S. EPA. 2005. A Probabilistic Exposure Assessment for Children who Contact CCA-Treated Playsets and Decks Using the Stochastic Human Exposure and Dose Simulation Model for the Wood Preservative Scenario (SHEDS-WOOD). Final Report. EPA/600/X-05/009. Washington, DC:U.S. Environmental Protection Agency. Wang Z, Kwon E, Zhang H, Jhangri GS, Lu X, Li X, et al. 2005. Arsenic on the hands of children: Wang et al. respond [Letter]. Environ Health Perspect 113:A364-A365. Xue J, Zartarian VG, Ozkaynak H, Dang dang interj. Used to express dissatisfaction or annoyance. adv. & adj. Damn. tr.v. danged, dang·ing, dangs To damn. n. W, Glen G, Smith L, et al. 2006. A probabilistic arsenic exposure assessment for children who contact CCA-treated playsets and decks: Part 2. Sensitivity and uncertainty analyses. Risk Anal 26(2):533-541. Zartarian VG, Xue J, Ozkaynak H, Dang W, Glen G, Smith L, et al. 2006. A probabilistic arsenic exposure assessment for children who contact CCA-treated playsets and decks. Part 1: Model methodology, variability results, and model evaluation. Risk Anal 26(2):515-531. Leila M. Barraj, (1) 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, (2) and Carolyn G. Scrafford (1) (1) Center for Chemical Regulation and Food Safety, 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 , Inc., Washington, DC, USA; (2) Center for 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. and Mechanistic mech·a·nis·tic adj. 1. Mechanically determined. 2. Of or relating to the philosophy of mechanism, especially one that tends to explain phenomena only by reference to physical or biological causes. Biology, Exponent, Inc., 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 Address correspondence to L.M. Barraj, Center for Chemical Regulation and Food Safety, Exponent, Inc., Suite 1100, 1730 Rhode Island Rhode Island, island, United States Rhode Island, island, 15 mi (24 km) long and 5 mi (8 km) wide, S R.I., at the entrance to Narragansett Bay. It is the largest island in the state, with steep cliffs and excellent beaches. Ave., NW, Washington, DC 20036 USA. Telephone: (202) 772-4909. Fax: (202) 772-4979. E-mail: lbarraj@exponent.com We thank B. Sceurman for technical assistance. Funding for this research was provided by the Wood Preservative Science Council. The authors declare a competing financial interest in that this research was funded by the Wood Preservative Science Council, a trade association of manufacturers of waterborne wood preservatives. Received 19 September 2006; accepted 21 February 2007.
Table 1. Formulas used to estimate the hand and body surface areas of
the children in the Kwon et al. study.
Parameter Sex and age (years) Formula or value used
Body weight Males: Height = 73.61 + 0.6068 x
and height [less than or equal to] 6 age (in months)
Body weight = exp (0.7487
+ 0.0202 x height)
Females: Height = 72.05 + 0.6231 x
[less than or equal to] 6 age (in months)
Body weight = exp (0.7077
+ 0.0205 x height)
TBSA Males and females: Surface area ([m.sup.2]) =
[less than or equal to] 5 0.02667 x
heigh[t.sup.0.38217] x
weigh[t.sup.0.53937]
Males and females: > 5 Surface area ([m.sup.2]) =
0.0305 x
heigh[t.sup.0.35129] x
weigh[t.sup.0.54375]
HSA (% of total Males and females: 6
surface area) [less than or equal to] 4
Males and females: 5 5.5 (a)
Males and females: > 5 5
(a) The algorithm used by SHEDS-Wood assumes 5% for persons > 4 years of
age; however, using 5% resulted in a smaller average hand surface area
for children 5 years of age than for those 4 years of age, so we used
the average value of 5.5% for this age group.
Table 2. Comparison of total arsenic in hand washings for children in
Kwon et al. to the distribution used by U.S. EPA in SHEDS-Wood.
Total arsenic in hand washings (a) Distribution used by
Percentile As measured (ng) Transformed (b) U.S. EPA
([micro]g/ ([micro]g/
[cm.sup.2]) [cm.sup.2])
25th 278 0.0008 0.0182
50th 566 0.0016 0.0334
75th 1,216 0.0036 0.0614
90th 1,996 0.0079 0.0714
95th 2,576 0.0091 0.1061
99th 4,427 0.0102 0.1472
Maximum 4,743 0.0105 --
Geometric mean 321 0.0016 0.0334
Geometric SD 2.7 2.9138 2.4624
(a) Estimates derived for children 1-6 years of age only. (b) Estimates
derived using assumptions similar to those used in SHEDS-Wood.
Table 3. Input parameters in the SHEDS-Wood Model.
Variable Unit Distribution
Fraction children Point (0.08)
with CCA-treated
home playset
Average fraction Beta (1.1, 0.36)
residential
outdoor time a
child plays
on/around
CCA-treated
residential
playset
Average no. of days/ Days/year Point (126)
year a child plays
on/around
residential
CCA-treated
playset
Average fraction Beta (1.1, 0.36)
nonresidential
outdoor time a
child plays on/
around CCA-treated
public playset
Average no. of days/ Days/year Point (126)
year a child plays
on/around treated
CCA-treated public
playset
Fraction time a Beta (12.35, 12.12)
child on/around
treated playset is
on playset itself
vs. on ground near
playset
Fraction children Point (0.5)
who have a
CCA-treated
residential deck
Average fraction Beta (1.1, 0.36)
residential
outdoor time a
child plays on/
around CCA-treated
residential deck
Average no. of days/ Days/year Point (126)
year a child plays
on/around
CCA-treated
residential deck
Fraction time a Beta (39.2, 4.3)
child on/around
CCA-treated home
deck is on the
deck vs. on the
ground near the
deck
Soil concentrations mg/kg Lognormal (29.96979,
near CCA-treated 1.643408)
playset
Wood surface [micro]g/[cm.sup.2] Lognormal (0.228262,
residues on 2.242383)
CCA-treated
playset
Soil concentrations mg/kg Weibull (1.056996, 41.89868)
near CCA-treated
deck
Wood surface [micro]g/[cm.sup.2] Lognormal (0.228262,
residues on 2.242383)
CCA-treated deck
Residue-skin Lognormal (0.143203, 2.3307)
transfer
efficiency
Fraction of total Beta (3, 6.7)
body (non-hand)
skin surface area
that is unclothed
Fraction of bare 1/min Beta (9.4, 3.3)
skin on hands
contacting
residues per time
Fraction of bare 1/min Beta (3.1, 16.5)
skin on body
(non-hands)
contacting
residues per time
Fraction of bare 1/min Beta (9.4, 3.3)
skin on hands
contacting soil
per time
Fraction of bare 1/min Beta (3.1, 16.5)
skin on body
(non-hands)
contacting soil
per time
Daily soil ingestion mg/day Lognormal (31, 4)
rate
Soil-skin adherence mg/[cm.sup.2] Lognormal (0.11, 2)
factor
Maximum dermal [micro]g/[cm.sup.2] Point (0.0105)
loading for
body (a)
Maximum dermal [micro]g/[cm.sup.2] Point (0.0105)
loading for
hands (a)
Fraction of hand Beta (3.7, 25)
surface area
mouthed per
mouthing event
Frequency of Events/hr Weibull (0.73, 6.93)
hand-mouth
activity per hour
Hand washing events Events/day Lognormal (3.74, 2.63)
per day
Hand washing removal Beta (32, 22)
efficiency
Bathing removal Beta (17.1, 5.1)
efficiency
Typical number of Days Point (1)
days between baths
Hand-mouth dermal Beta (14.5, 4.1)
transfer fraction
Dermal absorption 1/day Beta (50, 1,611)
fraction per day
for residues
Dermal absorption 1/day Beta (50, 1,611)
fraction per day
for soil
GI absorption 1/day Beta (4.7, 12.5)
fraction per day
for residues
GI absorption 1/day Beta (11.4, 13)
fraction per day
for soil
The terms "child" and "children" refer to children 1-6 years of age in
the United States who contact CCA-treated wood residues and/or
CCA-containing soil from public playsets, at a minimum.
(a) Input differs from that used by the U.S. EPA (2005), which used a
lognormal (0.033, 2.46) distribution (special analyses) or the product
of values randomly selected from the residue-skin transfer efficiency
and wood surface residue distributions.
Table 4. Probabilistic estimates (mean and percentile) of LADD (mg/kg/
day x [10.sup.-6]) for children exposed to CCA dislodgeable residues and
contaminated soil from treated wood playground structures and
residential decks.
Estimates derived by U.S. EPA
(2005)
Pathway Mean 50th 75th 95th 99th
Total (playset + deck) 11.0 6.1 13.0 39.0 84.0
Total playset 5.4 3.0 5.9 18.0 38.0
Residue ingestion from playset 3.1 1.2 3.3 12.0 26.0
Soil ingestion from playset 0.7 0.2 0.7 2.8 6.7
Residue dermal contact from playset 1.5 0.7 1.8 6.0 13.0
Soil dermal contact from playset 0.1 0.1 0.2 0.4 0.8
Total deck 5.9 2.8 6.6 21.0 48.0
Residue ingestion from deck 3.6 1.5 3.9 13.0 33.0
Soil ingestion from deck 0.1 0.0 0.1 0.4 1.3
Residue dermal contact from deck 2.2 1.0 2.4 8.0 18.0
Soil dermal contact from deck 0.0 0.0 0.0 0.1 0.2
Estimates derived using the Kwon
et al. data
Pathway Mean 50th 75th 95th 99th
Total (playset + deck) 3.0 2.7 3.7 5.6 8.1
Total playset 1.7 1.4 2.2 3.9 7.0
Residue ingestion from playset 0.7 0.6 0.9 1.8 2.5
Soil ingestion from playset 0.5 0.2 0.6 2.1 4.5
Residue dermal contact from playset 0.4 0.4 0.6 0.8 1.1
Soil dermal contact from playset 0.1 0.0 0.1 0.2 0.4
Total deck 1.2 1.2 1.6 2.3 2.8
Residue ingestion from deck 0.7 0.6 0.9 1.4 2.0
Soil ingestion from deck 0.1 0.0 0.1 0.4 0.8
Residue dermal contact from deck 0.5 0.5 0.6 0.8 1.0
Soil dermal contact from deck 0.0 0.0 0.0 0.1 0.1
Table 5. Probabilistic estimates (mean and percentile) of
intermediate-term ADD (mg/kg/day x [10.sup.-4]) for children exposed to
CCA dislodgeable residues and contaminated soil from treated wood
playground structures and residential decks.
Estimates derived by U.S. EPA
(2005)
Pathway Mean 50th 75th 95th 99th
Total (playset + deck) 1.3 0.7 1.4 4.5 9.6
Total playset 0.6 0.3 0.6 2.6 6.4
Residue ingestion from playset 0.4 0.1 0.3 1.7 4.1
Soil ingestion from playset 0.1 0.0 0.1 0.3 1.2
Residue dermal contact from playset 0.2 0.1 0.2 0.7 1.9
Soil dermal contact from playset 0.0 0.0 0.0 0.1 0.2
Total deck 0.6 0.3 0.7 2.2 5.9
Residue ingestion from deck 0.4 0.2 0.4 1.5 3.7
Soil ingestion from deck 0.0 0.0 0.0 0.0 0.1
Residue dermal contact from deck 0.2 0.1 0.2 0.8 2.0
Soil dermal contact from deck 0.0 0.0 0.0 0.0 0.0
Estimates derived using the Kwon
et al. data
Pathway Mean 50th 75th 95th 99th
Total (playset + deck) 0.4 0.3 0.5 0.8 1.4
Total playset 0.2 0.2 0.3 0.7 1.2
Residue ingestion from playset 0.1 0.1 0.1 0.3 0.4
Soil ingestion from playset 0.1 0.0 0.1 0.4 0.9
Residue dermal contact from playset 0.1 0.0 0.1 0.1 0.2
Soil dermal contact from playset 0.0 0.0 0.0 0.0 0.1
Total deck 0.1 0.1 0.2 0.3 0.4
Residue ingestion from deck 0.1 0.1 0.1 0.2 0.3
Soil ingestion from deck 0.0 0.0 0.0 0.0 0.1
Residue dermal contact from deck 0.1 0.0 0.1 0.1 0.2
Soil dermal contact from deck 0.0 0.0 0.0 0.0 0.0
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