Environmental exposure assessment of pesticides in farmworker homes.

Farmworkers and their families are exposed to pesticides both at work and in their homes. Environmental exposure assessment provides a means to evaluate pesticides in the environment and human contact with these chemicals through identification of sources and routes of exposure. To date, a variety of methods have been used to assess pesticide exposure among farmworker families, mostly focusing on dust and handwipe samples. While many of the methods are similar, differences in the collection, chemical analysis, and statistical analysis, can limit the comparability of results from farm-worker studies. This mini-monograph discusses the strategies used to assess pesticide exposures, presents limitations in the available data for farmworkers, and suggests research needs for future studies of pesticide exposure among farmworker families. Key words: dust sampling, farmworkers, pesticides. Environ Health Perspect 114:929-935 (2006). doi:10.1289/ehp.8530 available via http://dx.doi.org/[Online 16 February 2006]

**********

Farmworkers are exposed to pesticides in both agricultural and residential settings. Although exposure during occupational activities likely results in their highest exposures, these events are episodic episodic

sporadic; occurring in episodes. e. falling a paroxymal disorder described in Cavalier King Charles spaniels in which affected dogs, starting at an early age, experience episodes of extensor rigidity, possibly brought on by stress. e. . Farmworkers are also subject to long-term, low-level exposures through drinking water drinking water

supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. and food as well as to pesticides that infiltrate infiltrate /in·fil·trate/ (in-fil´trat)
1. to penetrate the interstices of a tissue or substance.

2. the material or solution so deposited.

in·fil·trate
v.
1. or are tracked into their residences. Research has shown that these "paraoccupational" exposures may be more substantial than and occur more frequently than occupational exposures (Fenske 1997). Indeed, paraoccupational or carry-home exposures may be important sources of pesticide exposure for farmworker families.

Exposure assessment provides a key piece in the picture that describes farmworker exposure to pesticides in the field and at home. The reasons for conducting exposure assessments for farmworkers include exposure surveillance and characterization, intervention, and epidemiologic studies epidemiologic study A study that compares 2 groups of people who are alike except for one factor, such as exposure to a chemical or the presence of a health effect; the investigators try to determine if any factor is associated with the health effect . In this article we discuss environmental exposure assessment techniques, with a focus on methods available for use in residences. Research in this area is multidisciplinary, and confusion often exists regarding the meaning of important terms such as "exposure" and "dose," so we begin this overview by defining some critical terms. We then discuss the difference between exposure measurement and assessment, evaluate existing sampling and analysis techniques for characterizing pesticide concentrations in environmental media, and discuss important study design issues that need to be considered to facilitate comparisons across studies. We close by summarizing exposure assessment research needs for studies of farmworker families.

Important Terms in Exposure Assessment

Exposure is a deceptively de·cep·tive·ly
adv.
In a deceptive or deceiving manner; so as to deceive.

Usage Note: When deceptively is used to modify an adjective, the meaning is often unclear. simple concept, defined as contact at a body boundary between a person and an environmental stressor (biological, chemical, or physical) over time (Ott 1985; Sexton sex·ton
n.
An employee or officer of a church who is responsible for the care and upkeep of church property and sometimes for ringing bells and digging graves. et al. 1995; Zartarian et al. 2005) (Figure 1). This simple definition masks the fact that a quantitative exposure analysis requires collection and analysis of multiple parameters such as concentration and duration of exposure as well as exposure factors that affect contact rates and, therefore, determine the magnitude of exposure. A description of exposure for a particular route (i.e., 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. , 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. , or 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) must include at least the following two related attributes: concentration of the pesticide in the carrier medium and the duration of contact. Therefore, exposure to pesticides in the environment requires not only the presence of the pesticide, but also that an individual come in contact with the pesticide at a specific time in a specific place. If there is no possibility of contact, there is no exposure. Dose, as mentioned in the introductory article to this mini-monograph (Arcury et al. 2006), refers to levels measured within a biological boundary. Biomonitoring is the subject of an accompanying article of this series (Barr et al. 2006) and will not be discussed in detail here.

Concentration is the amount of pesticide measured in a mass or volume of an environmental medium. In residential exposure assessment, we are concerned with contact with residues found in water, food, dust, and air in and around the home. Most often, exposure concentration is expressed in units of mass pesticide/mass matrix (e.g., micrograms of pesticide per kilogram kilogram, abbr. kg, fundamental unit of mass in the metric system, defined as the mass of the International Prototype Kilogram, a platinum-iridium cylinder kept at Sèvres, France, near Paris. of dust). In some cases such as surface residue sampling, pesticide loading is the exposure metric used. Loading measures the amount of a chemical found over a unit area (e.g., micrograms of pesticide 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. ) or per unit measured (e.g., microgram microgram /mi·cro·gram/ (µg) (mi´kro-gram) one millionth (10-6) of a gram.

mi·cro·gram
n.
Abbr. per child's hand).

Lastly, frequency and duration of exposure are key elements of pesticide exposure assessment because these variables are used to determine the cumulative dose over time. Frequency describes the number of contacts over a period of time (e.g., contact rate), and duration describes the lengths of these contacts. Exposures to pesticides typically vary over time with specific events such as applications indoors or to nearby fields appearing as spikes in an individual's exposure profile over time above an individual's background rate of exposure. Thus, estimating an average exposure for an individual may underestimate the impact of peak exposure events.

Pesticide Exposure Assessment

The physical and chemical properties of pesticides will determine where and when they may be detected in the environment (Ware 1994). Temporal variability in exposure is influenced by application intensity, frequency, method of application, behavioral characteristics of the applicator ap·pli·ca·tor
n.
An instrument for applying something, such as a medication.

applicator,
n a device for applying medication; usually a slender rod of glass or wood, used with a pledget of cotton on the end. (e.g., use of personal protective equipment, hand washing

This article or section contains .
The purpose of Wikipedia is to present facts, not to teach subject matter. ), as well as the physical, chemical, and biological properties of the pesticide formulation. The frequency and duration of exposure measurement are important design considerations for characterizing the temporal patterns of exposure to pesticides, and they are often determined by the persistence of pesticides and our ability to measure them in the environment. The persistent pesticide DDT DDT or 2,2-bis(p-chlorophenyl)-1,1,1,-trichloroethane, chlorinated hydrocarbon compound used as an insecticide. First introduced during the 1940s, it killed insects that spread disease and feed on crops. (dichlorodiphenyltrichloroethane di·chlo·ro·di·phen·yl·tri·chlo·ro·eth·ane
n.
DDT. ) as well as its primary metabolite metabolite, organic compound that is a starting material in, an intermediate in, or an end product of metabolism. Starting materials are substances, usually small and of simple structure, absorbed by the organism as food. and degradation product DDE (Dynamic Data Exchange) A message protocol in Windows that allows application programs to request and exchange data between them automatically.

DDE - Dynamic Data Exchange (dichlorodiphenyldichloroethylene), for example, are still measurable in house dust in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. more than 30 years after its use was banned (Lewis et al. 1995; Whitmore et al. 1994). The most widely used pesticides today, organophosphates, carbamates carbamates

effective insecticides which exert their effect by temporarily inhibiting cholinesterase activity. They are also capable of poisoning. Clinical signs are pupillary constriction, muscle tremor, salivation, ataxia and dyspnea. , and pyrethroids pyrethroids

synthetic substances with activity similar to the naturally occurring pyrethrins. They include cypermethrin, cyhalothrin, deltamethrin, flumethrin, permethrin. , are less persistent than older formulations. Therefore, it is important to measure exposures near the time of application because these compounds eventually degrade TO DEGRADE, DEGRADING. To, sink or lower a person in the estimation of the public.
2. As a man's character is of great importance to him, and it is his interest to retain the good opinion of all mankind, when he is a witness, he cannot be compelled to disclose over time. Although data are limited, it is likely that pesticides in common use today degrade less quickly in indoor environments than they would outdoors because they are protected from sunlight, rain, temperature extremes, microbial microbial

pertaining to or emanating from a microbe.

microbial digestion
the breakdown of organic material, especially feedstuffs, by microbial organisms. action, and other degradation processes (Butte Butte, city, United States
Butte (by

t), city (1990 pop. 33,336), seat of Silver Bow co., SW Mont.; inc. 1879. It is a trade, ranching, and industrial center. and Heinzow 2002; Lewis et al. 2001; Simcox et al. 1995). Therefore, pesticides in homes may represent a longer-term potential source of exposure, with relatively less temporal variability than outdoor applications.

Exposure Assessment Approaches

In the most general sense, the quantitative estimation of chemical pesticide exposure can be approached in any of the following three ways: personal measurements, scenario-based assessment, and reconstructive analyses of biological measurements (Barr et al. 2006; Sexton et al. 1995). Personal measurements document exposures as they occur by measuring the pesticide concentration at the point of contact between the person and the environmental medium where the pesticide exists. Examples include use of pumps and filters to measure airborne concentrations near the breathing zone, duplicate diet food samples to measure dietary levels, or skin patch skin patch, transdermal patch, or transdermal delivery system, adhesive patch used to deliver a controlled dose of a drug through the skin over a period of time. samples to measure dermal concentrations. The major strength of the personal measurement approach is that exposure is measured directly during the monitoring period, typically on the order of minutes, hours, or, at most, days. The problems with personal measurements are that they are costly and time consuming, they can be burdensome for the study participants, and suitable monitoring devices are not available for all pesticides and pathways of interest. Because these problems are exacerbated in the case of children, personal monitoring has rarely been attempted in this subpopulation sub·pop·u·la·tion
n.
A part or subdivision of a population, especially one originating from some other population: microbial subpopulations.

Noun 1. (Weaver et al. 1998), thereby limiting its use in assessments involving the children of farmworkers.

Biological measures of exposure may be used to "reconstruct re·con·struct
tr.v. re·con·struct·ed, re·con·struct·ing, re·con·structs
1. To construct again; rebuild.

2. " dose from body burden measurements if information or assumptions about rates of intake, uptake, and metabolism are available. The strength of this approach is that it demonstrates unequivocally that exposure and uptake have occurred. The primary drawbacks of this approach are the lack of specific physiologically based pharmacokinetic models for many pesticides, and that it integrates exposure over all pathways, so it may not provide information on the primary pathways or routes of interest. A recent case study that examined organophosphate organophosphate /or·ga·no·phos·phate/ (or?gah-no-fos´fat) an organic ester of phosphoric or thiophosphoric acid; such compounds are powerful acetylcholinesterase inhibitors and are used as insecticides and nerve gases. exposures in pregnant women living in an agricultural community demonstrates the strengths and limitations of this approach (Castorina et al. 2003). As a consequence, relatively few studies of farmworkers have attempted to reconstruct exposures. Most studies use biological measurements to understand the relative magnitude of different exposure pathways (e.g., inhalation versus ingestion), to identify risk factors for exposure (e.g., nonuse of personal protective equipment), to evaluate the effectiveness of an intervention in reducing exposure, or to classify individuals into groups in epidemiological studies An Epidemiological study is a statistical study on human populations, which attempts to link human health effects to a specified cause. .

In principle, personal and biological measurements are complementary methods. Because they are based on direct measurements in the exposed population, they are the preferred approaches for pesticide exposure assessment in farmworkers. In practice, however, personal measurements are infrequently in·fre·quent
adj.
1. Not occurring regularly; occasional or rare: an infrequent guest.

2. used because of resource constraints (e.g., time, personnel, and money), and important data are not available for specific situations and populations of interest. Consequently, the most common approach is scenario-based exposure assessment, which entails the construction of a plausible set of assumptions (i.e., a scenario) that describes quantitatively how contact occurs between people and pesticides. This approach requires the use of available measurements in combination with inferences and professional judgment.

A typical scenario-based approach estimates pesticide exposure by merging the following information: a) concentration of the chemical in the carrier medium, estimated by using monitoring, exposure models, or assumptions; and b) the individual's contact time with the carrier medium, estimated by using existing geographic and time-activity or other exposure factors, or by making reasonable assumptions about activity patterns, source proximity, and other relevant factors. Doses are then estimated by using knowledge and assumptions about relevant pharmacokinetic processes. Variations of the scenario-based approach include both a)"micro-environmental" methods, which combine measurements in important microenvironments (e.g., inside the residence and outdoors in the community) with data on time-activity patterns (Freeman et al. 2001; Klepeis et al. 2001; Reed et al. 1999; Zartarian et al. 1995), and b) pathway-exposure factor methods, which combine measurements in important environmental media (e.g., air, water, food, soil, and dust) with exposure factors (e.g., volume of air breathed or water consumed per day, body weight, and skin surface area) from relevant sources [U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (U.S. EPA EPA eicosapentaenoic acid.

EPA
abbr.
eicosapentaenoic acid

EPA,
n.pr See acid, eicosapentaenoic.

EPA,
n. ) 1997, 2002]. Many of these exposure factor data sets were not collected in farmworkers, and they may not represent variability in behavior or activities for this group (Quandt et al. 2006).

The primary advantage of scenario-based approaches is that they enable assessors to estimate pesticide exposure and dose in cases where data are limited or lacking. The uncertainty introduced by the need to make assumptions and inferences in the face of inadequate or inappropriate information is also their major disadvantage. Scenario-based assessments typically do not include a complete description of the exposure and dose distribution for farmworker populations. As a result, these estimates may provide only point estimates of specific locations on the population distribution of exposures. Despite their limitations, scenario-based approaches remain the only viable method for estimating pesticide exposure and dose in the absence of personal measurements.

Sampling Methods

Pesticides may be present in soil, air, water, dust, or food in or on surfaces around the home. To date, a majority of residential exposure studies have collected house dust or surface residue samples to evaluate exposure to pesticides in the home. Past emphasis on house dust and surface residue samples can be explained, at least in part, because these samples are thought (perhaps erroneously) to mimic personal exposure measurements. Also, they are relatively easy to collect compared to air, food, and water samples (Alavanja et al. 2004; Bradman et al. 1994, 1997; Colt COLT. An animal of the horse species, whether male or female, not more than four years old. Russ. & Ry. 416. et al. 1998; Fenske 1997; Fenske et al. 2002; Moate et al. 2002; Quandt et al. 2004a; Simcox et al. 1995). Because the potential for health effects from pesticides may result from exposure from all routes, the following sections discuss sampling of all environmental media.

Surface sampling. Surface residue sampling methods are intended to provide some measure of concentration (e.g., micrograms per square centimeter) that can be related to human exposure through a scenario-based assessment. For example, a moist wipe sample from a hard floor surface measures residue that can potentially transfer to hands, which can then be 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. via a hand-to-mouth process in children. Desirable characteristics for surface residue sampling techniques are that they can be standardized standardized

pertaining to data that have been submitted to standardization procedures.

standardized morbidity rate
see morbidity rate.

standardized mortality rate
see mortality rate. so they give reproducible results across studies.

Available methods for surface sampling indoors include the following: a) deposition pad samples; b) wipe sampling techniques, used on relatively smooth surfaces such as floors, countertops, and window sills (Arch.) the flat piece of wood, stone, or the like, at the bottom of a window frame.

See also: Window ; and c) vacuum techniques, which have been used to collect house dust samples from both hard floor surfaces and carpets. Pesticide deposition sampling is performed postapplication using aluminum foil Noun 1. aluminum foil - foil made of aluminum
aluminium foil, tin foil

foil - a piece of thin and flexible sheet metal; "the photographic film was wrapped in foil" (Fenske et al. 1991), gauze gauze (gawz) a light, open-meshed fabric of muslin or similar material.

absorbable gauze gauze made from oxidized cellulose. (Ross et al. 1991), or cotton cloth pads (Byrne et al. 1998; Krieger et al. 1997) as the collection medium. The choice of method used to remove pesticide residues Pesticide residue refers to the pesticides that may remain on or in food after they are applied to food crops.^[1] Regulation of pesticide residue in the US from surfaces can have a significant effect on estimated exposures. For example, investigators who used deposition pads wiped on surfaces and toys subsequently extracted with isooctane i·so·oc·tane
n.
A highly flammable liquid, (CH₃)₂CHCH₂C(CH₃)₃, used to determine the octane ratings of fuels. report either nondetectable or lower chlorpyrifos exposures (Byrne et al. 1998) compared to investigators who used hexane hexane /hex·ane/ (hek´san) a saturated hydrogen obtained by distillation from petroleum.

hex·ane
n. to remove pesticides directly from surfaces and toys (Gurunathan et al. 1998). Use of organic solvents directly on a surface apparently results in more complete removal of chlorpyrifos residues, but it may 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. doses obtained in dermal contact or hand-to-mouth activities, where the solvent would be saliva saliva

Thick, colourless fluid constantly present in the mouth, composed of water, mucus, proteins, mineral salts, and amylase, an enzyme that breaks down starches. One to two litres are produced daily by the salivary glands. , sweat, or the sebum sebum: see sebaceous gland. layer on the skin (Edwards and Lioy 1999).

A number of vacuum sampling systems have been developed to collect house dust samples from carpets, rugs, and bare floors. A specialized high-volume vacuum sampler sampler, sample piece of needlework or embroidery, of silk, cotton, or worsted, for the preservation of some pattern or as an example of the ability of a child or a beginner. In museums and private collections there are samplers dating from as early as 1643. was developed specifically to obtain samples of semivolatile pesticides in house dust [American Society for Testing and Materials Standards (ASTM ASTM
abbr.
American Society for Testing and Materials ) 1993]. It has been used in several field studies to collect carpet and smooth surface samples (Bradman et al. 1997; Lewis et al. 1994; Nishioka et al. 1996; Simcox et al. 1995). The ASTM method obtains similar median but higher upperbound dust pesticide concentrations compared to dust samples from home vacuum cleaner vacuum cleaner, mechanical device using a draft of air to remove dust, loose dirt, or other particulate matter from dry surfaces. It is especially useful on highly textured surfaces, such as carpets and upholstery, that are difficult to clean by wiping or brushing. bags, possibly because of a higher collection efficiency compared to commercially available vacuums typically used in residences (Colt et al. 1998).

Three techniques have been developed to measure dislodgeable residues on indoor and outdoor surfaces and to characterize transfer from one location to another. Two of these methods have used polyurethane foam Noun 1. polyurethane foam - a foam made by adding water to polyurethane plastics
polyfoam

polyurethan, polyurethane - any of various polymers containing the urethane radical; a wide variety of synthetic forms are made and used as adhesives or plastics or (PUF PUF Public Use File
PUF Parallel URL fetcher (*nix download tool)
PUF Physically Unclonable Function
PUF Northern Puffer
PUF Paid-Up-Front
PUF Preguntas de Uso Frequente (Spanish: Frequently Asked Questions) ) as a collection medium (Lewis et al. 1994; Ross et al. 1991). The method of Lewis et al. is designed to simulate the force of a child crawling on a surface. Using this method, investigators estimated 2,4-D and dicamba track-in rates onto carpets after outdoor turf applications (Nishioka et al. 1996). Transfer was estimated to be 3% of dislodgeable residues, and total transfer was estimated to be 0.1 to 0.2% of the total turf application. A "drag sled" method has also been developed that uses a 100-[cm.sup.2] patch of denim affixed af·fix
tr.v. af·fixed, af·fix·ing, af·fix·es
1. To secure to something; attach: affix a label to a package.

2. to the bottom of a sled-like device, whose weight approximates the force exerted by a 10-kg child on a surface (Byrne et al. 1998; Vaccaro et al. 1996). Similar methods have been developed to assess the dislodge-able residue from treated lawns (Fuller et al. 2001; Klonne et al. 2001; Rosenheck et al. 2001). In theory, the PUF and drag sled methods should give similar results, but no studies have directly compared them.

Use of surface or dust samples poses limitations because such samples do not represent all sources of pesticide exposure, and no current studies link concentrations in dust to specific health effects; however, there are ongoing efforts in this direction. Furthermore, dust samples provide no information regarding food-related exposures and exposures during direct pesticide applications. Dust samples do provide a picture of what is present in the home, the location where a large proportion of the day is spent. Therefore, dust samples should be part of any careful analysis of pesticide exposure in farmworkers.

Handwipe sampling. Surface dust provides a microenvironmental measure of exposure, while handwipes provide a personal exposure measure. Handwipe methods have been developed that use either isopropanol isopropanol, isopropyl alcohol, or 2-propanol (ī'səprō`pənōl, ī'səprō`pĭl), (CH₃)₂CHOH, a colorless liquid that is miscible with water. and gauze wipes (Geno et al. 1996; Lewis et al. 1994; Lu and Fenske 1999) or a 10% isopropanol/distilled water mixture used as a hand rinse to remove pesticides from the skin (Edwards and Lioy 1999; Fenske and Lu 1994). Because of its ease of use the Geno method has been used in several recent studies in farmworker families, for collecting data from hands as well as toys and floors (Curwin et al. 2003; Lewis et al. 2001; Quandt et al. 2004a). The drawback DRAWBACK, com. law. An allowance made by the government to merchants on the reexportation of certain imported goods liable to duties, which, in some cases, consists of the whole; in others, of a part of the duties which had been paid upon the importation. of this method is that it may remove deeply embedded Inserted into. See embedded system. compounds that may not be removable by typical soap and water washing or the hand-to-mouth ingestion scenario. Data from controlled mass-balance experiments suggest that dermal wash methods may significantly underestimate exposure since they typically remove approximately 20-40% of the available compound, with the remaining amounts likely absorbed through the skin (Fenske and Lu 1994). Only one study has compared pesticide residue levels measured by wipe, roller, and handwipe or press methods. Indoor chlorpyrifos levels after broadcast application indicate that wipe and PUF roller measurements estimate a dermal loading that is 23-36 times greater than estimates based on hand press or drag samples (Lu and Fenske 1999). These data suggest that while measurement methods may be internally consistent and may correctly rank order individuals, comparisons across studies may be difficult because the collection procedures may result in different levels being reported.

Air sampling. Pesticides can be measured in both indoor and outdoor air in both the gas and particulate par·tic·u·late
adj.
Of or occurring in the form of fine particles.

n.
A particulate substance.

particulate

composed of separate particles. phases. The general considerations for sampling indoor or outdoor air concentrations as well as personal air measures are the same and include selection of the type of airflow device, the sample collector and medium, and the sample location. The basic decision regarding type of airflow device is whether to use a high-volume or low- volume sampler. A main advantage of high volume samplers is that they can operate at higher flow rates (> 5 L/min), which reduces the time required to collect a given sample volume. Larger sample volumes require less sensitive analytical methods to achieve meaningful detection limits. However, high-volume samplers are more typically employed in ambient air pollution sampling than in residential exposure monitoring because they are larger, noisier, and less portable than low-volume samplers and often require electrical power to operate. Low-volume samplers generally are portable, battery operated, relatively quiet, and easy to use and are generally used for personal monitoring. Flow rates of 0.5-1.5 L/min are typically recommended for pesticides (Quackenboss et al. 2000). Higher flow rates may be necessary to achieve detection with very short collection times (< 30 min). This might be the case, for example, in trying to measure serial concentrations during and after a fogger application or during and after application of a pressurized pres·sur·ize
tr.v. pres·sur·ized, pres·sur·iz·ing, pres·sur·iz·es
1. To maintain normal air pressure in (an enclosure, as an aircraft or submarine).

2. aerosol aerosol (âr`əsōl,–sŏl): see colloid.

aerosol

System of tiny liquid or solid particles evenly distributed in a finely divided state through a gas, usually air. product by or from spray drift from an agricultural application. As with all methods, if the anticipated pesticide concentration is low, the amount of sample collected needs to be increased.

The decision about which sample collector to employ in residential air sampling is primarily influenced by the physical state of the pesticide in air and particle size Particle size, also called grain size, refers to the diameter of individual grains of sediment, or the lithified particles in clastic rocks. The term may also be applied to other granular materials. of the aerosol (Lewis and Gordon 1996). Different collector types can be employed in air sampling, but the primary ones used to sample pesticides are filter cassettes and solid sorbents. Filter cassettes are typically employed if the pesticide of interest exists as an aerosol (solid or liquid), and solid sorbents are typically used for vapors. These collectors can also be used in series if there is a chance for the pesticide to be present in both phases, or to minimize sample loss caused by volatilization volatilization /vol·a·til·iza·tion/ (vol?ah-til-i-za´shun) conversion into vapor or gas without chemical change.

vol·a·til·i·za·tion
n.
See evaporation. off the filter cassette, which can occur during extended sampling periods. Most pesticides are present as aerosols during and for short periods following application and then exist as vapors or bound to dust particles. Resuspension Noun 1. resuspension - a renewed suspension of insoluble particles after they have been precipitated
suspension - a mixture in which fine particles are suspended in a fluid where they are supported by buoyancy through vacuuming, dusting, or other mechanical means can also contribute to aerosols being present postapplication.

Food and water sampling. Dietary exposure to pesticides can occur via both food and water, and no studies have systematically evaluated this specific pathway for contribution to overall farmworker exposure. In the studies that have been done for the general population, evaluation of dietary exposure frequently involves mathematical modeling

Note: The term model has a different meaning in model theory, a branch of mathematical logic. An artifact which is used to illustrate a mathematical idea is also called a mathematical model and this usage is the reverse of the sense explained below.

of exposure based on food consumption patterns and information on the levels of pesticides in those foods (Clayton et al. 2003; MacIntosh et al. 1996, 1999b, 2001). The accuracy of the estimates depends then on the confidence one has that the measurements of the residue levels in foods are realistic and reflect the actual pesticide residue levels. A more intensive assessment of pesticides in food comes from the "duplicate plate" method, wherein where·in
adv.
In what way; how: Wherein have we sinned?

conj.
1. In which location; where: the country wherein those people live.

2. exact duplicates of a person's daily meals and snacks are prepared concurrently with their consumption and then measured for pesticide residue levels (Clayton et al. 2003). Collection, storage and analysis of food samples as well as recruitment of highly motivated participants can be limitations to conducting these studies in any population, and may be especially difficult in farmworkers because of education, language, and proper incentives for participation in research. In some communities, primarily those relying on well water for drinking water, pesticide exposure may occur through use of this water for drinking, cooking or bathing. In most research conducted to date, exposure to pesticides via drinking water is low, largely because pesticides in both wells and public water systems have been diluted di·lute
tr.v. di·lut·ed, di·lut·ing, di·lutes
1. To make thinner or less concentrated by adding a liquid such as water.

2. To lessen the force, strength, purity, or brilliance of, especially by admixture. over time by the large volume of ground or surface water (MacIntosh et al. 1999a). Although water samples are easy to collect at the tap, large volumes may be necessary since the concentrations are generally at or below analytical detection limits. Farmworker exposures from drinking water are likely to be small relative to occupational, food, or residential exposure sources unless the drinking water source is highly 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. or water consumption is very high.

Design and Conduct of Exposure Studies

Exposure assessment focuses on identifying the contaminant contaminant /con·tam·i·nant/ (kon-tam´in-int) something that causes contamination.

contaminant

something that causes contamination. exposures experienced by individuals as they go about their daily activities. Table 1 outlines four major exposure assessment strategies with regard to the research question, the study design, the exposure measurement scenario, and the outcome measures and limitations of each type of study. These studies differ in complexity and specificity of information required. Figure 2 illustrates the possible levels of detail in exposure information. Issues for selection of environmental media and analysis of environmental samples are discussed below.

Design of pesticide exposure assessment studies needs to consider both the analyte of interest and the exposure pathway of interest. The first step is to determine the pesticides that are being used in the region, often not an easy question to address, and the next step is to identify whether appropriate collection and analysis methods exist. Selection of analytes determines the media of interest, the sampling approach, other potential analytes, and the cost, feasibility, and logistics. Investigators may choose to focus on both agricultural and residential pesticides to capture a complete picture of total pesticide exposure. The physical and chemical properties of pesticides can be used to identify where and when to find a pesticide. Sample location is also an important consideration in collecting residential samples. The main objective should be to collect samples from a location(s) that is representative of where farmworkers spend time. These locations could include vehicles or changing areas, but they should also encompass living rooms, kitchens, bedrooms, or other rooms where farmworkers spend time.

Exposure assessment studies can use either random samples from a defined population, such as farmworkers in a specific geographic area, or a convenience sample of available workers. Convenience sampling affords selection of individuals for monitoring based on criteria other than statistical representability. Advantages of the convenience sample are ease of selection and likely increased compliance with measurement protocols because of higher personal motivation, but results may not be representative of the larger population or, more importantly, of the overall distribution of exposures. Intervention studies intervention studies,
n.pl the epidemiologic investigations designed to test a hypothesized cause and effect relation by modifying the supposed causal factor(s) in the study population. often start with convenience samples to assess whether the intervention works among highly motivated individuals before approaching a larger population. A representative sample is obtained using a random sampling approach to select individuals. While a representative sample is more easily generalizable gen·er·al·ize
v. gen·er·al·ized, gen·er·al·iz·ing, gen·er·al·iz·es

v.tr.
1.
a. To reduce to a general form, class, or law.

b. To render indefinite or unspecific.

2. to a larger population, the downside Downside

The dollar amount by which the market or a stock has the potential to fall.

Notes:
You might hear someone say that the downside on stock XYZ is $10. What that means is that the stock could fall by this amount if things got bad. of this approach is that it may result in reduced compliance and potentially, loss to follow-up. Also, less motivated participants often reduce the reliability of such investigations.

The temporal pattern of exposure is a key design issue for all exposure assessment strategies. The timing of sample collection needs to consider transport and dispersion dispersion, in chemistry
dispersion, in chemistry, mixture in which fine particles of one substance are scattered throughout another substance. A dispersion is classed as a suspension, colloid, or solution. mechanisms that are important in the scenario being studied, and to merge these factors with design considerations and data concerning acute or chronic situations or the decay from acute to low-level residual exposures. For example, aerial spray applications may result in more rapid transport of pesticides from farm field to residence than in-ground applications to row-crops. Thus, for aerial spray applications, air monitoring in homes near fields may need to coincide with the initiation of application. However, if transport of residues on contaminated clothing is the greater concern, sampling that coincides with the entry of that clothing into the home may be used to ascertain the relative contributions of sources. Similarly, the collection of dust residues (either with wipe techniques or by vacuum sampling) may take up to a week for dispersion and equilibration equilibration /equi·li·bra·tion/ (e-kwil?i-bra´shun) the achievement of a balance between opposing elements or forces.

occlusal equilibration to occur within the home, but this timing needs to be weighed against individual or cultural practices regarding the frequency of residential cleaning. Another important temporal consideration is that because new pesticides are introduced to the market constantly, methods need to be flexible to accommodate market changes in pesticide use.

Surveillance studies. Surveillance studies address the following questions: a) are pesticides present? b) in what media are they present? c) at what levels? and d) what factors predict pesticide presence? In these studies researchers may collect and analyze samples such as air, water, dust, soil, and dislodgeable surface residues to determine the pesticide(s) of interest. Surveillance studies are important steps to undertake, as it is through these studies that we understand the situations and scenarios where pesticide exposure might occur. For example, until lawn pesticides were measured in house dust (Nishioka et al. 1999, 2001), we did not have the foundation for hypothesizing the transport mechanisms and activities whereby children could be exposed to these pesticides while indoors. Surveillance studies can also serve an important role as the preliminary step to larger more comprehensive personal exposure characterization studies. The surveillance studies may help to establish the range of levels that can be encountered so that power calculations can be performed or so that analytical techniques An analytical technique is a method that is used to determine the concentration of a chemical compound or chemical element. There are a wide variety of techniques used for analysis, from simple weighing (gravimetric) to titrations (titrimetric)to very advanced techniques using and detection limit requirements can be set. These studies may also be used to assess whether and to what extent other factors such as physiochemical physiochemical /phys·io·chem·i·cal/ (fiz?e-o-kem´ik-il) pertaining to both physiology and chemistry.

physiochemical

pertaining to both physiology and chemistry. properties or agricultural use affect the transport from occupational to residential setting. As such, a comprehensive exposure assessment study may not always be required if there are existing factors that link pesticide concentrations together with activity patterns and exposure factors to potential exposure.

Surveillance studies frequently rely on convenience samples to assess potential exposure. Limitations associated with convenience samples can be minimized by screening of initial study respondents and selecting for variability in factors that might affect exposure measures, such as proximity to treated fields, job classification, method of pesticide application, personal hygiene personal hygiene person n → Körperhygiene f , and protective practices. Postsampling questionnaires may uncover additional factors that broaden the applicability of the results. These questionnaires may cover factors related to lifestyle (i.e., showering after work and laundering of work clothing), parent-child interactions (whether children are allowed in mixing, loading, and application areas), and familial familial /fa·mil·i·al/ (fah-mil´e-il) occurring in more members of a family than would be expected by chance.

fa·mil·ial
adj. activity factors (such as whether pets are allowed indoors and frequency of vacuuming and cleaning). Questionnaires and other metrics metrics Managed care A popular term for standards by which the quality of a product, service, or outcome of a particular form of Pt management is evaluated. See TQM. that predict exposure factors are discussed in the article by Quandt et al. (2006) in this mini-monograph.

While surveillance studies do not have the same requirements as an exposure characterization study for tightly linking sampling method, sampling location, and sample timing to an exposure metric, these features are still important design requirements. Careful consideration needs to be given to the population, to the timing and frequency of sample collection with respect to pesticide use, and to the issue of spatial distribution within a sampled medium.

Exposure characterization. Exposure characterization determines the presence of a pesticide or its metabolites Metabolites
Substances produced by metabolism or by a metabolic process.

Mentioned in: Interactions in environmental media. Exposure characterization builds on exposure surveillance designs to further assess the temporal and spatial patterns of exposure in the population. The temporal and spatial patterns of exposure are assessed through the collection of multiple samples to describe the behavior of pesticides in that environment. This may focus on just one medium (e.g., air) or multiple media to evaluate total exposure. Collection of samples from all relevant environmental media allows the assessment of the relative contribution of each source or pathway to an individual's total pesticide exposure. Exposure characterization may rely on historic data such as pesticide application records and wind direction and use mathematical models to estimate exposure levels over time or may involve an intensive field effort to collect samples.

Before the development of a protocol to assess the distribution of human exposure, one must make several decisions. First, it is necessary to define the population for which the exposure distribution is to be measured. An additional consideration is temporal variation. Certain exposures may be relatively constant over long periods of time, whereas others may be episodic, random, or vary seasonally. Cross-sectional monitoring may be sufficient to ascertain the exposure distribution if exposures are constant over time. If exposures vary over time, especially in cases where such variation cannot be easily modeled, it may be necessary to monitor longitudinally. In such a design, a group of farmworkers may be monitored repeatedly, with each monitoring period being equivalent to one cross-sectional study cross-sectional study
n.
See synchronic study.

cross-sectional study,
n the scientific method for the analysis of data gathered from two or more samples at one point in time. . A cross-sectional study can also encompass a larger initial population, thereby affording better assessment of the population distribution; however, temporal variability in exposure within individuals in the population as well as within the overall population of farmworkers cannot be addressed in such a study. Longitudinal investigations can assess such variability, but they are more limited in sample size because costs typically increase more with the number of individual measurements rather than with the number of individuals monitored. Attrition Attrition

The reduction in staff and employees in a company through normal means, such as retirement and resignation. This is natural in any business and industry.

Notes: limits the utility of longitudinal studies longitudinal studies,
n.pl the epidemiologic studies that record data from a respresentative sample at repeated intervals over an extended span of time rather than at a single or limited number over a short period. for determining overall exposure distributions, particularly among transient populations such as migrant mi·grant
n.
1. One that moves from one region to another by chance, instinct, or plan.

2. An itinerant worker who travels from one area to another in search of work.

adj.
Migratory. farmworkers.

One strategy to assess both population and individual variation is the use of nested designs. In such designs, a large sample is chosen initially, and monitoring is accomplished via simple and inexpensive instrumentation, often using only questionnaires. A subset of this group is then selected for more intensive monitoring intensive monitoring Intensive care The continuous monitoring of Pt vital signs, with electronic hookups to the nursing station; IM encompasses real time measurement of BP and ABGs via arterial lines, pulse oximetry, continuous cardiac monitoring, respiration, . In principle, many levels of such nesting are possible while maintaining 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. approach. Nested designs are commonly employed in epidemiologic investigations; for example, the Agricultural Health Study (Alavanja et al. 1996), a large case-control study case-control study,
n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. of farmers and their families, has conducted intensive exposure monitoring on a subset of the cohort to help validate the exposure assumptions derived from questionnaires (Agricultural Health Study 2006). The larger components gather information about many individuals, and the more detailed data collection affords placement of individuals on the distributional scale.

Intervention studies. Intervention studies use exposure assessment to evaluate whether the intervention was successful at reducing pesticide exposure levels in homes. These studies compare the levels among treatment groups and thus may be appropriate for pooling samples within a house or across houses. Intervention studies, like other exposure studies, may also involve reporting results back to participants, so these studies benefit from the availability of comparable data to share with participants (Quandt et al. 2004b). Understanding the temporal and spatial variability Spatial variability is characterized by different values for an observed attribute or property that are measured at different geographic locations in an area. The geographic locations are recorded using GPS (global positioning systems) while the attribute's spatial variability is is key to the design of intervention studies so that the effect measured is associated with the intervention and not just the sampling variability. This requires careful selection of measurement, assessment, and statistical techniques that will be used to evaluate the effectiveness of the intervention.

Epidemiologic studies. Epidemiologic studies are conducted to specifically assess whether pesticides are associated with health effects in populations. Since most adverse health outcomes are rare, investigators need to balance the quality of the exposure data with the sample size required to detect an outcome in an epidemiologic study. Improvement of exposure sensitivity (e.g., individual level exposures versus categorization) may reduce sample size sufficiently to afford a less expensive study despite the increased exposure monitoring costs. If this is not possible, then the typical approach is to obtain a larger populations than a typical exposure assessment study. As a result, the exposure assessment strategies may be less quantitative than those used in surveillance or exposure characterization studies. Exposure may be classified as ever/never or in quantiles of exposure and thus precision in the absolute concentration may be less important than an individual's relative location in the exposure distribution. Because of the need to assess exposure on a large number of individuals, relatively inexpensive exposure measures are often employed, with nested studies conducted to validate the exposure assumptions (Alavanja et al. 2004; Kromhout and Heederik 2005). Depending on the health outcome, the time period for the exposure of interest is likely to have already occurred, resulting in the need to obtain retrospective measurements of exposure (Alavanja et al. 2004). Understanding the temporal and long-term variability of pesticides in environmental and biological media will allow further application of these measures in epidemiologic studies.

Comparing Across Studies

Comparison across studies can be challenging because each study has different objectives, but this process can be facilitated if common factors are recognized and standardized during the study design phase (Table 2). Specific key factors include active ingredient An active ingredient, also active pharmaceutical ingredient (or API), is the substance in a drug that is pharmaceutically active. Some medications may contain more than one active ingredient. , geographic region, calendar year, and season of sampling. Comparisons are simpler if the same pesticide and the same medium are sampled, but even when considering a widely used compound and collection medium such as chlorpyrifos in house dust, differences in the sampling and analysis protocols may limit the validity comparisons. Dust sample results need to consider the method of collection (wipe or vacuum), the size fraction analyzed, and the sampling location within the household. For wipe samples, the solvent used in the wipe sample and the method of extraction may also influence the comparability of results. Detection limits for the pesticide of interest and the statistical reporting of results may also affect the reported distribution. If nondetects are included as zero values, while other investigators exclude the nondetected values, the means and the distributions in the populations will differ greatly.

Given these many possible sources of variability in exposure between studies, it is important that priorities are set to guide future studies and move the science forward. Although all properly conducted studies are internally valid, there are still things that researchers can do that will allow easier comparisons among studies. First, all studies should include information on response rates, representativeness of the sampling frame (calendar year, region, population sampled, etc.), valid quality assurance measures, and adequate statistical power to address the question(s) of interest. New studies need to use documented methods or include the following key information on all aspects of the exposure assessment: sample collection, chemical, and statistical analysis and interpretation of what the sample represents. Given the importance of surface sampling to estimate exposure and health effects in farmworkers, additional research is needed to aid interpretation of dust and dust sampling wipe results. Specifically, better estimates of pesticide transfer rates from floors to hands and dermal absorption rates are required. For example, a study of direct head-to-head comparisons of a number of sampling methods, both in laboratory and field settings, would provide the opportunity to know when data from the methods were comparable and which methods performed better under different conditions. The overall goal needs to be standard exposure metrics that permit valid comparisons of dose-response results between studies or meta-analyses across studies. One additional key issue in studies of farmworker families is presentation of results to the farmworker community and other lay audiences in terms they can understand, even if scientists are uncertain of the health implications of the measured exposure (Quandt et al. 2004b).

In summary, a variety of methods exist to collect samples to assess potential exposure to pesticides from environmental media. To date, most of the research has focused on dust sampling, but there has been little standardization standardization

In industry, the development and application of standards that make it possible to manufacture a large volume of interchangeable parts. Standardization may focus on engineering standards, such as properties of materials, fits and tolerances, and drafting with regard to the methods used. For example, the results from vacuum surface sampling are generally reported in mass concentration (micrograms of pesticide per kilogram of dust), while the results from wipe and surface samples are typically reported as surface loading Sur´face load`ing

1. (Aëronautics) The weight supported per square unit of surface; the quotient obtained by dividing the gross weight, in pounds, of a fully loaded flying machine, by the total area, in square feet, of its supporting surface. (micrograms of pesticide per square centimeter of floor). While surface loading is most likely more closely related to exposure and health effects than dust concentration, little research has been conducted on this topic. In our judgment, results obtained via surface loading are not likely to be correlated strongly with those obtained via dust concentration. Therefore, results obtained by these two different methods are difficult to interpret, and a comparison of the data may be limited to rank ordering. In addition, vacuum measurement Vacuum measurement

The determination of a gas pressure that is less in magnitude than the pressure of the atmosphere. This low pressure can be expressed in terms of the height in millimeters of a column of mercury which the given pressure (vacuum) will methods with uncharacterized particle size collection characteristics may be difficult to interpret or to compare to more rigorous methods that collect a known size fraction, which can be related to an specific exposure scenario. Results from wipe samples need to be considered carefully, because the method of collection, such as a handwipe versus a solvent wash, may affect the amount of pesticide removed from a hand. A systematic framework is needed to develop consistent and reproducible methods to be used in future pesticide exposure studies in farmworker families. We have outlined the first steps toward this framework, but future research will help to shape its ultimate form.

Implications for Future Studies

To address pesticide-related health effects in farmworkers, the determination of the contribution of these residential exposures is critical for characterizing total exposure, estimating potential health risks, implementing effective interventions, providing benchmarks for assessing environmental justice, and conducting epidemiological studies. Currently, research has focused on surveillance studies and on identifying pesticides present in dust and on surfaces in farmworker homes. Measuring dust levels of pesticides is important, because dust appears to be one of the most important sources of pesticide exposure, given the small contribution of water and air. Future work should focus both on better understanding of how the dust and hand-wipe collection methods compare and on collecting repeated measurements to ascertain the temporal and spatial variation in pesticide levels in farmworker homes. One area that is poorly studied among farmworkers, as well as the general population, is the level of pesticides in food and the potential exposures associated with food consumption. Because direct measurement of pesticides in food is time consuming and difficult, modeling strategies that incorporate food consumption habits should be employed to assess this potentially important source of pesticide exposure. As the field matures, and the surveillance studies are applied to health effects studies, understanding the exposure assessment methodologies and their comparability will be critical to conducting risk assessments and to determining mitigation strategies.

REFERENCES

Agricultural Health Study. 2006. Agricultural Health Study. Available: http://www.aghealth.org [1 May 2006].

Alavanja MC, Hoppin JA, Kamel F. 2004. Health effects of chronic pesticide exposure: cancer and neurotoxicity neurotoxicity /neu·ro·tox·ic·i·ty/ (noor?o-tok-sis´it-e) the quality of exerting a destructive or poisonous effect upon nerve tissue. . Annu Rev Public Health 25:155-197.

Alavanja MC, Sandler DP, McMaster SB, Zahm SH, McDonnell CJ, Lynch CF, et al. 1996. The Agricultural Health Study. 104:362-369.

Arcury TA, Quandt SA, Barr DB, Hoppin JA, McCauley L, Grzywacz JG, et al. 2006. Farmworker exposure to pesticides: methodologic issues for the collection of comparable data. Environ Health Perspect 114:923-928.

ASTM. 1993. Standard practice for collection of dust from carpeted floors for chemical analysis. Standard Practice d 5438-93. In: Annual Book of ASTM Standards. Philadelphia: American Society for Testing Materials Standards.

Barr DB, Thomas K, Curwin B, Landsittel D, Raymer J, Lu C, et al. 2006. Biomonitoring of exposure in farmworker studies. Environ Health Perspect 114:936-942.

Bradman MA, Harnly ME, Draper W, Seidel S sei·del
n.
A beer mug.

[German, from Middle High German sdel, from Latin situla, bucket.]

Noun 1. , Teran S Teran (Italian: Carso Terrano) is a wine produced on the Kras plateau in Slovenia and Italy, as well as in the West Istrian wine region of Croatia. It is made from the grapes of the vine refošk (Italian: refosco). , Wakeham D, et al. 1997. Pesticide exposures to children from California's central valley: results of a pilot study. J Expo Anal Environ Epidemiol 7:217-234.

Bradman MA, Harnly ME, Goldman LR, Marty MA, Dawson SV, Dibartolomeis MJ. 1994. Malathion and maloxon environmental levels used for exposure assessment and risk characterization of aerial applications Aerial application, commonly called crop dusting, involves spraying crops with fertilizers, pesticides, and fungicides from an agricultural aircraft. The specific spreading of fertiliser is also known as aerial topdressing. to residential areas of Southern California Southern California, also colloquially known as SoCal, is the southern portion of the U.S. state of California. Centered on the cities of Los Angeles and San Diego, Southern California is home to nearly 24 million people and is the nation's second most populated region, , 1989-1990. J Expo Anal Environ Epidemiol 4:49-63.

Butte W, Heinzow B. 2002. Pollutants pollutants

see environmental pollution. in house dust as indicators of indoor contamination. Rev Environ Contam Toxicol 175:1-46.

Byrne SL, Shurdut BA, Saunders DG. 1998. Potential chlorpyrifos exposure to residents following standard crack and crevice crevice /crev·ice/ (krev´is) fissure.

gingival crevice the space between the cervical enamel of a tooth and the overlying unattached gingiva.

crev·ice
n. treatment. Environ Health Perspect 106:725-731.

Castorina R, Bradman A, McKone TE, Barr DB, Harnly ME, Eskenazi B. 2003. Cumulative organophosphate pesticide organophosphate pesticide A phosphorus-rich organic compound–eg, parathion, that contain a halide which phosphorylates cholinesterase and irreversibly inhibits its activity Management Atropine, pralidoxime exposure and risk assessment among pregnant women living in an agricultural community: a case study from the chamacos cohort. Environ Health Perspect 111:1640-1648.

Clayton AC, Pellizzari ED, Whitmore RW, Quackenboss JJ, Adgate JL, Sexton K. 2003. Distributions, associations, and partial aggregate exposure of pesticides and polynuclear polynuclear /poly·nu·cle·ar/ (-noo?kle-er) having several nuclei; said of cells.

pol·y·nu·cle·ar or pol·y·nu·cle·ate or pol·y·nu·cle·at·ed
adj.
Multinuclear. aromatic hydrocarbons Noun 1. aromatic hydrocarbon - a hydrocarbon that contains one or more benzene rings that are characteristic of the benzene series of organic compounds
benzene, benzine, benzol - a colorless liquid hydrocarbon; highly inflammable; carcinogenic; the simplest of the in the Minnesota Children's Pesticide Exposure Study (MNCPES). J Expo Anal Environ Epidemiol 13:100-111.

Colt JS, Zahm SH, Camann DE, Hartge P. 1998. Comparison of pesticides and other compounds in carpet dust samples collected from used vacuum cleaner bags and from a high-volume surface sampler. Environ Health Perspect 106:721-724.

Curwin BD, Hein MJ, Sanderson WT, Nishioka M, Buhler W. 2003. Acephate exposure and decontamination decontamination /de·con·tam·i·na·tion/ (de?kon-tam-i-na´shun) the freeing of a person or object of some contaminating substance, e.g., war gas, radioactive material, etc.

de·con·tam·i·na·tion
n. on tobacco harvesters' hands. J Expo Anal Environ Epidemiol 13:203-210.

Edwards RD, Lioy PJ. 1999. The el sampler: a press sampler for the quantitative estimation of dermal exposure to pesticides in house dust. J Expo Anal Environ Epidemiol 9:521-529.

Fenske RA. 1997. Pesticide exposure assessment of workers and their families. Occup Med State Art Rev 12:221-237.

Fenske RA, Curry PB, Wandelmaier F, Ritter rit·ter
n. pl. ritter
A knight.

[German, from Middle High German riter, from Middle Dutch ridder, from r L. 1991. Development of dermal and respiratory sampling procedures for human exposure to pesticides in indoor environments. J Expo Anal Environ Epidemiol 1:11-30.

Fenske RA, Lu C. 1994. Determination of handwash removal efficiency: incomplete removal of the pesticide chlorpyrifos from skin by standard handwash techniques. Am Ind Hyg Assoc J 55:425-432.

Fenske RA, Lu C, Barr D, Needham L. 2002. Children's exposure to chlorpyrifos and parathion parathion: see insecticide. in an agricultural community in central Washington Central Washington is a region of the United States defined as the western half of Eastern Washington, or those counties lying east of the Cascade Mountains but west of the 119th meridian. State. Environ Health Perspect 110:549-553.

Freeman NC, Jimenez M, Reed KJ, Gurunathan S, Edwards RD, Roy A, et al. 2001. Quantitative analysis Quantitative Analysis

A security analysis that uses financial information derived from company annual reports and income statements to evaluate an investment decision.

Notes: of children's microactivity patterns: the Minnesota Children's Pesticide Exposure Study. J Expo Anal Environ Epidemiol 11:501-509.

Fuller R, Klonne D, Rosenheck L, Eberhart D, Worgan J, Ross J. 2001. Modified California roller for measuring transferable residues on treated turfgrass. Bull Environ Contam Toxicol 67:787-794.

Geno PW, Camann DE, Harding HF, Villalobos K, Lewis RG. 1996. Handwipe sampling and analysis procedure for the measurement of dermal contact with pesticides. Arch Environ Contam Toxicol 30:132-138.

Gurunathan S, Robson M, Freeman N, Buckley B, Roy A, Meyer R, et al. 1998. Accumulation of chlorpyrifos on residential surfaces and toys accessible to children. Environ Health Perspect 106:9-16.

Klepeis NE, Nelson WC, Ott WR, Robinson JP, Tsang AM, Switzer P, et al. 2001. The National Human Activity Pattern Survey (NHAPS): a resource for assessing exposure to environmental pollutants environmental pollutants,
n.pl the substances and conditions, including noise, that adversely affect the health and well-being of the people within a community. . J Expo Anal Environ Epidemiol 11:231-252.

Klonne D, Cowell J, Mueth M, Eberhart D, Rosenheck L, Ross J, et al. 2001. Comparative study of five transferable turf residue methods. Bull Environ Contam Toxicol 67:771-779.

Krieger RI, Rosenheck LA, Schuester LL. 1997. Adult and infant abamectin exposures following avert 310 and pressurized gel. Bull Environ Contam Toxicol 58:681-687.

Kromhout H, Heederik D. 2005. Effects of errors in the measurement of agricultural exposures. Scand J Work Environ Health 31(suppl 1):33-38.

Lewis R, Gordon S. 1996. Sampling for organic chemicals in air. In: Principles of Environmental Sampling (Keith L, ed). Washington, DC:American Chemical Society The American Chemical Society (ACS) is a learned society (professional association) based in the United States that supports scientific inquiry in the field of chemistry. Founded in 1876 at New York University, the ACS currently has over 160,000 members at all degree-levels and in , 401-470.

Lewis RG, Fortmann RC, Camann DE. 1994. Evaluation of methods for monitoring the potential exposure of small children to pesticides in the residential environment. Arch Environ Contamin Tox 26:37-46.

Lewis RG, Fortune CR, Blanchard FT, Camann DE. 2001. Movement and deposition of two organophosphorus or·gan·o·phos·pho·rus
n.
An organophosphate.

organ·o·phos pesticides within a residence after interior and exterior applications. J Air Waste Manag Assoc 51:339-351.

Lewis RG, Roberts JW, Chuang JC, Camann DE, Ruby MG. 1995. Measuring and reducing exposure to the pollutants in house dust. Am J Public Health 85:1168.

Lu C, Fenske R. 1999. Dermal transfer of chlorpyrifos residues from residential surfaces: comparison of hand press, hand drag, wipe, and polyurethane foam roller measurements after broadcast and aerosol pesticide applications. Environ Health Perspect 107:463-467.

MacIntosh D, Hammerstrom K, Ryan P. 1999a. Longitudinal exposure to selected pesticides in drinking water. Hum Ecol Risk Assess 5:575-588.

MacIntosh DL, Kabiru CW, Ryan PB. 2001. Longitudinal investigation of dietary exposure to selected pesticides. Environ Health Perspect 109:145-150.

MacIntosh DL, Needham LL, Hammerstrom KA, Ryan PB. 1999b. A longitudinal investigation of selected pesticide metabolites in urine. J Expo Anal Environ Epidemiol 9:494-501.

MacIntosh DL, Spengler JD, Ozkaynak H, Tsai L, Ryan PB. 1996. Dietary exposures to selected metals and pesticides. Environ Health Perspect 104:202-209.

Moate TF, Furia M, Curl C, Muniz JF, Yu J, Fenske RA. 2002. Size exclusion chromatographic chro·mat·o·graph
n.
An instrument that produces a chromatogram.

tr.v. chro·mat·o·graphed, chro·mat·o·graph·ing, chro·mat·o·graphs
To separate and analyze by chromatography. cleanup for GC/MS GC/MS Gas Chromatograph/Mass Spectrometer
GC/MS Gas Chromatograph/Mass Spectrometry
GC/MS Gas Chromatograph/Mass Spectrograph determination of organophosphorus pesticide residues in household and vehicle dust. J AOAC AOAC Association of Official Analytical Chemists (now AOAC International)
AOAC Association of Analytical Communities
AOAC Association of Analytical Chemists
AOAC Always On/Always Connected
AOAC Aero-Optic Evaluation Center Int 85:36-43.

Nishioka MG, Burkholder HM, Brinkman MC, Gordon SM, Lewis RG. 1996. Measuring transport of lawn-applied herbicide herbicide (hr`bəsīd'), chemical compound that kills plants or inhibits their normal growth. A herbicide in a particular formulation and application can be described as selective or nonselective. acids from turf to home: correlation of dislodgeable 2,4-D turf residues with carpet dust and carpet surface residues. Environ Sci Technol 30:3313-3320.

Nishioka MG, Burkholder HM, Brinkman MC, Lewis RG. 1999. Distribution of 2,4-dichlorophenoxyacetic acid in floor dust througout homes following homeowner and commercial lawn applications: quantitative effects of children, pets, and shoes. Environ Sci Technol 33:1359-1365.

Nishioka MG, Lewis RG, Brinkman MC, Burkholder HM, Hines CE, Menkedick JR. 2001. Distribution of 2,4-D in air and on surfaces inside residences after lawn applications: comparing exposure estimates from various media for young children. Environ Health Perspect 109:1185-1191.

Ott WR. 1985. Total human exposure. Environ Sci Technol 10:880-886.

Quackenboss JJ, Pellizzari ED, Shubat P, Whitmore RW, Adgate JL, Thomas KW, et al. 2000. Design strategy for assessing multipathway exposure for children: the Minnesota Children's Pesticide Exposure Study (MNCPES). J Expo Anal Environ Epidemiol 10:145-158.

Quandt SA, Arcury TA, Rao P, Snively BM, Camann DE, Doran AM, et al. 2004a. Agricultural and residential pesticides in wipe samples from farmworker family residences in North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures

Area, 52,586 sq mi (136,198 sq km). Pop. and Virginia. Environ Health Perspect 112:382-387.

Quandt SA, Doran AM, Rao P, Hoppin JA, Snively BM, Arcury TA. 2004b. Reporting pesticide assessment results to farmworker families: development, implementation, and evaluation of a risk communication strategy. Environ Health Perspect 112:636-642.

Quandt SA, Hernandez-Valero MA, Grzywacz JG, Hovey JD, Gonzales M, Arcury TA. 2006. Workplace, household, and personal predictors of pesticide exposure for farmworkers. Environ Health Perspect 114:943-952.

Reed KJ, Jimenez M, Freeman NC, Lioy PJ. 1999. Quantification of children's hand and mouthing activities through a videotaping methodology. J Expo Anal Environ Epidemiol 9:513-520.

Rosenheck L, Cowell J, Mueth M, Eberhart D, Klonne D, Norman C, et al. 2001. Determination of a standardized sampling technique for pesticide transferable turf residues. Bull Environ Contam Toxicol 67:780-786.

Ross J, Fong HR, Thongsinthusak T, Margetich S, Krieger R. 1991. Measuring potential dermal transfer of surface pesticide residue generated from indoor fogger use: using the CDFA CDFA California Department of Food and Agriculture
CDFA Council of Development Finance Agencies
CDFA Certified Divorce Financial Analyst
CDFA Community Development Finance Association
CDFA Community Development Finance Authority roller method. Interim report II. Chemosphere chemosphere: see atmosphere. 22:975-984.

Sexton K, Callahan MA, Bryan EF. 1995. Estimating exposure and dose to characterize health risks: the role of human tissue monitoring in exposure assessment. Environ Health Perspect 103:13-29.

Simcox NJ, Fenske RA, Wolz SA, Lee IC, Kalman DA. 1995. Pesticides in household dust and soil: exposure pathways for children of agricultural families. Environ Health Perspect 103:1126-1134.

U.S. EPA. 1997. Exposure Factors Handbook. EPA/600/P-95/002Fa-Fc. Washington, DC:U.S. Environmental Protection Agency, Office of Research and Development. Available: http://cfpub.epa. gov/ncea/cfm/efprog.cfm [accessed 12 October 2005].

U.S. EPA. 2002. Pesticide Industry Sales and Usage: 1998 and 1999 Market Estimates. Washington, DC:U.S. Environmental Protection Agency, Office of Pesticide Programs. Available: http://www.epa.gov/oppbead1/pestsales/99pestsales/table_of_contents1999.html [accessed 12 October 2005].

Vaccaro J, Nolan R, Murphy P, Berbrich D. 1996. The use of a unique study design to estimate exposure to adults and children to surface and airborne chemicals. In: Characterizing Sources of Indoor Air Pollution and Related Sink Effects (Tichenor BA, ed). Phildelphia:American Society for Testing and Materials, 166-183.

Ware GW. 1994. The Pesticide Book. 4th ed. Fresno, CA:Thomson Publications.

Weaver VM, Buckley TJ, Groopman JD. 1998. Approaches to environmental exposure assessment in children. Environ Health Perspect 106(suppl 3):827-832.

Whitmore RW, Immerman FW, Camann DE, Bond AE, Lewis RG, Schaum JL. 1994. Nonoccupational exposures to pesticides for residents of two U.S. cities. Arch Environ Contam Toxicol 26:47-59.

Zartarian V, Bahadori T, McKone T. 2005. Adoption of an official ISEA ISEA International Safety Equipment Association
ISEA International Society of Exposure Analysis
ISEA Industrial Safety Equipment Association
ISEA In-Service Engineering Agent
ISEA Illinois Solar Energy Association
ISEA In-Service Engineering Activity glossary. J Expo Anal Environ Epidemiol 15:1-5.

Zartarian VG, Streicker J, Rivera A, Cornejo CS, Molina S Mo·li·na , Mario José Born 1943.

Mexican-born American chemist who shared a 1995 Nobel Prize for his work on the chemical processes involved in the formation and decomposition of ozone. , Valadez OF, et al. 1995. A pilot study to collect micro-activity data of two-to four-year-old farm labor children in Salinas Valley The Salinas Valley in the Central Coast region of California lies along the Salinas River between the Gabilan Range and the Santa Lucia Range. It encompasses parts of Monterey County. , California. J Expo Anal Environ Epidemiol 5:21-34.

Jane A. Hoppin, (1) John L. Adgate, (2) Monty (programming, abuse) monty - /mon'tee/ Any program with a ludicrously complex user interface that performs a trivial task. An example would be a menu-driven, button clicking, pulldown, pop-up windows program for listing directories. Eberhart, (3) Marcia Nishioka, (4) and P. Barry Ryan (5)

(1) Epidemiology Branch, National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. , National Institutes of Health, Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979
Health and Human Services, HHS , Research Triangle Park Research Triangle Park, research, business, medical, and educational complex situated in central North Carolina. It has an area of 6,900 acres (2,795 hectares) and is 8 × 2 mi (13 × 3 km) in size. Named for the triangle formed by Duke Univ. , North Carolina, USA; (2) School of Public Health, University of Minnesota (body, education) University of Minnesota - The home of Gopher.

http://umn.edu/.

Address: Minneapolis, Minnesota, USA. , Minneapolis, Minnesota “Minneapolis” redirects here. For other uses, see Minneapolis (disambiguation).
Minneapolis (pronounced IPA: /ˌmɪniˈæpəlɪs/) is the largest city in the U.S. , USA; (3) Bayer CropScience, Research Triangle Park, North Carolina, USA; (4) Battelle Memorial Institute The Battelle Memorial Institute is a private not-for-profit applied science and technology development company headquartered in Columbus, Ohio. The institute opened in 1929 but traces its origins to the 1923 will of Ohio industrialist Gordon Battelle which provided for its , Columbus, Ohio Columbus is the capital and the largest city of the American state of Ohio. Named for explorer Christopher Columbus, the city was founded in 1812 at the confluence of the Scioto and Olentangy rivers, and assumed the functions of state capital in 1816. , USA; (5) Emory University Emory University (ĕm`ərē), near Atlanta, Ga.; coeducational; United Methodist; chartered as Emory College 1836, opened 1837 at Oxford. It became Emory Univ. in 1915 and in 1919 moved to Atlanta. , Atlanta, Georgia, USA

This article is part of the mini-monograph "Farmworker Exposure to Pesticides: Methodological Issues for the Collection of Comparable Data."

Address correspondence to J.A. Hoppin, NIEHS NIEHS National Institute of Environmental Health Sciences (NIH, DHHS) , Epidemiology Branch, PO Box 12233, Research Triangle Park, NC 27709 USA. Telephone: (919) 541-7622. Fax: (919) 541-2511. E-mail: hoppin1@niehs.nih.gov

We thank the participants in the Farmworker Pesticide Exposure Comparable Data Conference held in Winston-Salem, NC, from 30 September to 1 October 2004.

Financial support was provided by the Pesticide Environmental Trust Fund, N.C. Department of Agriculture and Consumer Services Consumer Services refers to the formulation, deformulation, technical consulting and testing of most consumer products, such as food, herbs, beverages, vitamins, pharmaceuticals, cosmetics, hair products, household cleaners, [paints, plastics, metals, waxes, coatings, minerals, ; the NIEHS and the National Institute for Occupational Safety and Health National Institute for Occupational Safety and Health,
n.pr an institute of the Centers for Disease Control and Prevention that is responsible for assuring safe and healthful working conditions and for developing standards of safety and health. (R13 ES/OH013378); and CropLife America, Inc. This work was supported in part by the intramural intramural /in·tra·mu·ral/ (-mu´r'l) within the wall of an organ.

in·tra·mu·ral
adj.
Occurring or situated within the walls of a cavity or organ. research program of the NIEHS, NIH.

M.E. is employed by Bayer CropScience, a company that specializes in the areas of crop protection, nonagricultural pest control pest control n → control m de plagas

pest control n → lutte f contre les nuisibles

pest control pest n , seeds, and plant biotechnology. The remaining authors declare they have no competing financial interests.

Received 11 July 2005; accepted 27 October 2005.

Table 1. Research questions and study designs that employ environmental
exposure measurements.

Hypothesis/question   Study design        Exposure measurement/scenario

Are pesticides        Surveillance        Measurement: pesticides in
  present in the                            air, water, soil, house
  residence?                                dust, surfaces
What is the           Exposure            Media measurements,
  distribution of       characterization    biomonitoring, and exposure
  human exposures?                          factor characterization one
                                            or more times
Does an intervention  Intervention        Paired samples before/after
  reduce pesticide                          intervention
  concentration in
  a residence?
What is the           Epidemiology
  relationship
  between pesticide
  exposure effect?
                      Cross-sectional     Concurrent potential exposure
                                            and outcome measurement
                      Retrospective       Reconstructive analyses
                      Prospective         Exposure measurement before
                                            disease; longitudinal
                                            measurements


Hypothesis/question   Study design        Outcome/limitations

Are pesticides        Surveillance        Distribution of residential
  present in the                          concentrations, predictive
  residence?                              factors No direct link to
                                          exposure or health effects
What is the           Exposure            Distribution of individual
  distribution of       characterization    potential doses, estimation
  human exposures?                          of high-end exposures,
                                            relatively small numbers
                                            because of resource
                                            limitations
Does an intervention  Intervention        Reduction of environmental
  reduce pesticide                          concentrations that likely
  concentration in                          influence exposure
  a residence?
What is the           Epidemiology        Outcome: associations between
  relationship                              pesticide exposure metric
  between pesticide                         and a health and health
  exposure effect?                          effect
                      Cross-sectional     Limitation: potential problems
                                            with temporal sequence of
                                            exposure/effect
                      Retrospective       Limitation: assumptions about
                                            past probability of contact
                                            and concentrations in the
                                            environment or body
                      Prospective         Time varying exposures; cost,
                                            critical time period of
                                            exposure

Table 2. Factors to be considered when collecting environmental samples
for health studies in farmworkers.

Factors that can be standardized
  Media sampled
    Dust, soil, water, food, handwipe
  Collection methods
    Wipe
    Vacuum
  Size fraction analyzed (dust, soil, air)
  Sampling location
    For example, child's bedroom
  Analytical methods
  Detection limits
  Volume of sample collected
Site-specific factors
  Analytes of interest
  Geographic region
    Crops raised, pests of concern
  Calendar year

COPYRIGHT 2006 National Institute of Environmental Health Sciences
No portion of this article can be reproduced without the express written permission from the copyright holder.

Reader Opinion

Article Details
Printer friendly Cite/link Email Feedback
Title Annotation:	Mini-Monograph
Author:	Ryan, P. Barry
Publication:	Environmental Health Perspectives
Date:	Jun 1, 2006
Words:	8784
Previous Article:	Farmworker exposure to pesticides: methodologic issues for the collection of comparable data.(Mini-Monograph)
Next Article:	Biomonitoring of exposure in farmworker studies.(Mini-Monograph)
Topics:	Pesticides

Related Articles
Contentious worker testing.(Pesticides)
Developing a comprehensive pesticide health effects tracking system for an urban setting: New York City's approach.(Public Health Tracking /...
Activities and Organophosphate exposures: need for the numbers.(Perspectives: Correspondence)
Activities and organophosphate exposures: response.(Perspectives: Correspondence)
Organophosphate pesticide exposure and neurobehavioral performance in agricultural and nonagricultural Hispanic workers.(Research)
Organophosphate pesticide exposure and work in pome fruit: evidence for the take-home pesticide pathway.
Prevention pays for farmworkers.(BEYOND THE BENCH)
Farmworker exposure to pesticides: methodologic issues for the collection of comparable data.(Mini-Monograph)
Workplace, household, and personal predictors of pesticide exposure for farmworkers.(Mini-Monograph)
Studying health outcomes in farmworker populations exposed to pesticides.(Mini-Monograph)