Evaluation of a personal air sampler for twenty-four hour collection of fine particles and semivolatile organics1

Williams, Ron; Watts, Randall R; Stevens, Robert K.; Stone, Charles Leonard; Lewtas, Joellen

doi:10.1038/sj.jea.7500028

Cited by 20 publications

(6 citation statements)

References 14 publications

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“…27 The sampler was connected to a pump operating at 1.7 l/min powered by batteries with inlet attached to the individual's breathing zone and was located by his bed during the night (total weight of the sampler 1 kg). 28…”

Section: Personal Exposure Monitoringmentioning

confidence: 99%

Personal exposure to carcinogenic polycyclic aromatic hydrocarbons in the Czech Republic

Švecová

Topinka

Solanský

et al. 2012

J Expo Sci Environ Epidemiol

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Personal exposures to carcinogenic polycyclic aromatic hydrocarbons (c-PAHs) bound to airborne particulate matter 2.5 μm (PM2.5) were measured in the context of a large-scale molecular epidemiological study in order to identify the impacts of air pollution on human health. Sampling was carried out in three industrial cities in the Czech Republic: Ostrava, Karvina and Havirov. The city of Prague, exhibiting much lower industrial air pollution but a high level of traffic, served as a control. The first monitoring campaigns were held in winter and were repeated in the summer of 2009. The active personal monitors PV 1.7 for PM2.5-bound c-PAHs were used. Non-smoking city policemen from Prague, Karvina and Havirov, and office workers from Ostrava, participated in the study. All participants completed a personal questionnaire and a time-location-activity diary. The average personal winter exposure to c-PAHs (sum of the eight PAHs-benz[a]anthracene, benzo[a]pyrene, benzo[b]fluoranthene, benzo[g,h,i]perylene, benzo[k]fluoranthene, chrysene, dibenz[a,h]anthracene and indeno[1,2,3-c,d]pyrene) was highest in Karvina, 39.1, followed by Ostrava at 15.1 and Prague at 4.3 ng/m(3). The winter levels were significantly higher than the summer values (P<0.001): 4.3 in Karvina, 3.0 in Ostrava, 1.6 in Havirov and 1.0 ng/m(3) in Prague. The average personal benzo[a]pyrene winter/summer exposures were: 6.9/0.6 in Karvina, 2.5/0.4 in Ostrava, 0.8/0.1 in Prague and 0.2 ng/m(3) in summer in Havirov. In this study, we examined personal exposure to c-PAHs and tested it for associations with potential predictor variables collected from questionnaires, addressing life style factors and day-to-day activities. We found outdoor concentration, environmental tobacco smoke exposure, home heating fuel of coal, wood or gas, frequency of exhaust fan use, cooking and commuting by a car to be the main determinants of personal exposure.

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Section: Personal Exposure Monitoringmentioning

confidence: 99%

Personal exposure to carcinogenic polycyclic aromatic hydrocarbons in the Czech Republic

Švecová

Topinka

Solanský

et al. 2012

J Expo Sci Environ Epidemiol

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“…An intensive 5-year research effort to further this goal was conducted beginning in 1998 using guidance from the National Research Council (NRC, 1998). One major component of this effort involved longitudinal human exposure panel studies in an effort to better understand the contribution of particulate matter (PM) of ambient origin to total personal exposures over time (Williams et al, 1999;Evans et al, 2000;Williams et al, 2000a, b, c, d;Williams et al, 2002Williams et al, , 2003aWallace and Williams, 2005;Wallace et al, 2006a, b;McBride et al, 2007). Results from these studies showed that for fine PM mass and sulfate, a central monitoring site could serve as an adequate surrogate for exposure in community-based epidemiological studies (US EPA, 2004).…”

Section: Introductionmentioning

confidence: 99%

The design and field implementation of the Detroit Exposure and Aerosol Research Study

Williams

Rea

Vette

et al. 2008

J Expo Sci Environ Epidemiol

103

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The US Environmental Protection Agency recently conducted the Detroit Exposure and Aerosol Research Study (DEARS). The study began in 2004 and involved community, residential, and personal-based measurements of air pollutants targeting 120 participants and their residences. The primary goal of the study was to evaluate and describe the relationship between air toxics, particulate matter (PM), PM constituents, and PM from specific sources measured at a central site monitor with those from the residential and personal locations. The impact of regional, local (point and mobile), and personal sources on pollutant concentrations and the role of physical and human factors that might influence these concentrations were investigated. A combination of active and passive sampling methodologies were employed in the collection of PM mass, criteria gases, semivolatile organics, and volatile organic compound air pollutants among others. Monitoring was conducted in six selected neighborhoods along with one community site using a repeated measure design. Households from each of the selected communities were monitored for 5 consecutive days in the winter and again in the summer. Household, participant and a variety of other surveys were utilized to better understand human and household factors that might affect the impact of ambient-based pollution sources upon personal and residential locations. A randomized recruitment strategy was successful in enrolling nearly 140 participants over the course of the study. Over 36,000 daily-based environmental data points or records were ultimately collected. This paper fully describes the design of the DEARS and the approach used to implement this field monitoring study and reports select preliminary findings.

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“…Latex allergen found on respirable rubber tire particles is likely common in urban air (125,126) and could lead to sensitization and respiratory symptoms. In addition, the physical action of motor vehicles on road dust, which is known to contain pollen grains, could lead to the production and resuspension of smaller respirable pollen fragments (37).…”

Section: Epidemiologic Evidence For Pollutant Mixtures Containing Pahmentioning

confidence: 99%

Epidemiologic evidence for asthma and exposure to air toxics: linkages between occupational, indoor, and community air pollution research.

Delfino

2002

Environ Health Perspect

269

152

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Outdoor ambient air pollutant exposures in communities are relevant to the acute exacerbation and possibly the onset of asthma. However, the complexity of pollutant mixtures and etiologic heterogeneity of asthma has made it difficult to identify causal components in those mixtures. Occupational exposures associated with asthma may yield clues to causal components in ambient air pollution because such exposures are often identifiable as single-chemical agents (e.g., metal compounds). However, translating occupational to community exposure-response relationships is limited. Of the air toxics found to cause occupational asthma, only formaldehyde has been frequently investigated in epidemiologic studies of allergic respiratory responses to indoor air, where general consistency can be shown despite lower ambient exposures. The specific volatile organic compounds (VOCs) identified in association with occupational asthma are generally not the same as those in studies showing respiratory effects of VOC mixtures on nonoccupational adult and pediatric asthma. In addition, experimental evidence indicates that airborne polycyclic aromatic hydrocarbon (PAH) exposures linked to diesel exhaust particles (DEPs) have proinflammatory effects on airways, but there is insufficient supporting evidence from the occupational literature of effects of DEPs on asthma or lung function. In contrast, nonoccupational epidemiologic studies have frequently shown associations between allergic responses or asthma with exposures to ambient air pollutant mixtures with PAH components, including black smoke, high home or school traffic density (particularly truck traffic), and environmental tobacco smoke. Other particle-phase and gaseous co-pollutants are likely causal in these associations as well. Epidemiologic research on the relationship of both asthma onset and exacerbation to air pollution is needed to disentangle effects of air toxics from monitored criteria air pollutants such as particle mass. Community studies should focus on air toxics expected to have adverse respiratory effects based on biological mechanisms, particularly irritant and immunological pathways to asthma onset and exacerbation.

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Evaluation of a personal air sampler for twenty-four hour collection of fine particles and semivolatile organics1

Cited by 20 publications

References 14 publications

Personal exposure to carcinogenic polycyclic aromatic hydrocarbons in the Czech Republic

Personal exposure to carcinogenic polycyclic aromatic hydrocarbons in the Czech Republic

The design and field implementation of the Detroit Exposure and Aerosol Research Study

Epidemiologic evidence for asthma and exposure to air toxics: linkages between occupational, indoor, and community air pollution research.

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