Comparison of multiple PM<sub>2.5</sub> exposure products for estimating health benefits of emission controls over New York State, USA

Jin, Xiaomeng; Fiore, Arlene M.; Civerolo, Kevin; Bi, Jianzhao; Liu, Yang; Donkelaar, Aaron van; Martin, Randall V.; Al‐Hamdan, Mohammad Z.; Zhang, Yuqiang; Insaf, Tabassum Z.; Kioumourtzoglou, Marianthi-Anna; He, Mike Z.; Kinney, Patrick L.

doi:10.1088/1748-9326/ab2dcb

Cited by 35 publications

(31 citation statements)

References 85 publications

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“…The Dalhousie V4.NA.02 data for 2011 shown in Figure 1c capture the spatial gradients of the county-level monitoring data in Figure 1d. The Dalhousie data seem to show the best agreement with the AQS+IMPROVE data in the remote areas of the western U.S. and New England, which is consistent with another comparison study (Jin et al, 2019b). This feature indicates that incorporating satellite data can be valuable for improving estimation of PM 2.5 concentrations in remote areas where monitor coverage is sparse.…”

Section: Major Pm 25 Exposure Datasetssupporting

confidence: 86%

“…Because ground-based monitors, satellites, and models are often combined to estimated surface PM 2.5 , there are few independent data sources for validation. A recent study over New York State uses independent ground-based observations from the New York City Community Air Quality Survey (NYCCAS) Program and the Saint Regis Mohawk Tribe Air Quality Program to evaluate seven PM 2.5 products (Jin et al, 2019b). Jin et al suggest inclusion of satellite remote sensing improves the estimate of surface PM 2.5 in the remote area, but little gains over urban area.…”

Section: Ongoing and Future Research Effortsmentioning

confidence: 99%

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Methods, availability, and applications of PM_2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Diao

Holloway

Choi

et al. 2019

Journal of the Air & Waste Management Association

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Fine particulate matter (PM 2.5 ) is a well-established risk factor for public health. To support both health risk assessment and epidemiological studies, data are needed on spatial and temporal patterns of PM 2.5 exposures. This review article surveys publicly available exposure datasets for surface PM 2.5 mass concentrations over the contiguous U.S., summarizes their applications and limitations, and provides suggestions on future research needs. The complex landscape of satellite instruments, model capabilities, monitor networks, and data synthesis methods offers opportunities for research development, but would benefit from guidance for new users. Guidance is provided to access publicly available PM 2.5 datasets, to explain and compare different approaches for dataset generation, and to identify sources of uncertainties associated with various types of datasets. Three main sources used to create PM 2.5 exposure data are: ground-based measurements (especially regulatory monitoring), satellite retrievals (especially aerosol optical depth, AOD), and atmospheric chemistry models. We find inconsistencies among several publicly available PM 2.5 estimates, highlighting uncertainties in the exposure datasets that are often overlooked in health effects analyses. Major differences among PM 2.5 estimates emerge from the choice of data (ground-based, satellite, and/or model), the spatiotemporal resolutions, and the algorithms used to fuse data sources.

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Section: Major Pm 25 Exposure Datasetssupporting

confidence: 86%

Section: Ongoing and Future Research Effortsmentioning

confidence: 99%

Methods, availability, and applications of PM_2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Diao

Holloway

Choi

et al. 2019

Journal of the Air & Waste Management Association

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“…2015 ; Wu et al. 2019 ) given that the model we used has been shown to perform well even at rural locations in NYS ( Jin et al. 2019 ) and, thus, any error is likely nondifferential.…”

Section: Discussionmentioning

confidence: 99%

“…Although the prediction model has excellent predictive accuracy (van Donkelaar et al 2019) and is highly spatially resolved to capture population-averaged county-level exposures, some exposure measurement error is still expected. Any resulting bias, however, is expected to be toward the null (Kioumourtzoglou et al 2014;Hart et al 2015;Wu et al 2019) given that the model we used has been shown to perform well even at rural locations in NYS (Jin et al 2019) and, thus, any error is likely nondifferential. First hospitalization data are likely to miss a number of cases because patients may not be hospitalized even as disease symptoms worsen.…”

Section: Limitationsmentioning

confidence: 99%

Fine Particle Exposure and Clinical Aggravation in Neurodegenerative Diseases in New York State

Nunez

Boehme

Weisskopf

et al. 2021

Environ Health Perspect

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BACKGROUND: Adult-onset neurodegenerative diseases affect millions and negatively impact health care systems worldwide. Evidence suggests that air pollution may contribute to aggravation of neurodegeneration, but studies have been limited. OBJECTIVE: We examined the potential association between long-term exposure to particulate matter ≤2:5 lm in aerodynamic diameter [fine particulate matter (PM 2:5)] and disease aggravation in Alzheimer's (AD) and Parkinson's (PD) diseases and amyotrophic lateral sclerosis (ALS), using first hospitalization as a surrogate of clinical aggravation. METHODS: We used data from the New York Department of Health Statewide Planning and Research Cooperative System (SPARCS 2000-2014) to construct annual county counts of first hospitalizations with a diagnosis of AD, PD, or ALS (total, urbanicity-, sex-, and age-stratified). We used annual PM 2:5 concentrations estimated by a prediction model at a 1-km 2 resolution, which we aggregated to population-weighted county averages to assign exposure to cases based on county of residence. We used outcome-specific mixed quasi-Poisson models with county-specific random intercepts to estimate rate ratios (RRs) for a 1-y PM 2:5 exposure. We allowed for nonlinear exposure-outcome relationships using penalized splines and accounted for potential confounders. RESULTS: We found a positive nonlinear PM 2:5-PD association that plateaued above 11 lg=m 3 (RR = 1:09, 95% CI: 1.04, 1.14 for a PM 2:5 increase from 8.1 to 10:4 lg=m 3). We also found a linear PM 2:5-ALS positive association (RR = 1:05, 95% CI: 1.01, 1.09 per 1-lg=m 3 PM 2:5 increase), and suggestive evidence of an association with AD. We found effect modification by age for PD and ALS with a stronger positive association in patients <70 years of age but found insufficient evidence of effect modification by sex or urbanization level for any of the outcomes. CONCLUSION: Our findings suggest that annual increase in county-level PM 2:5 concentrations may contribute to clinical aggravation of PD and ALS. Importantly, the average annual PM 2:5 concentration in our study was 8:1 lg=m 3 , below the current American national standards, suggesting the standards may not adequately protect the aging population.

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“…All PM 2.5 datasets used in this study provided daily PM 2.5 concentrations. More details regarding the PM 2.5 products, including validation and comparative statistics, can be found in an existing publication [ 25 ].…”

Section: Methodsmentioning

confidence: 99%

Short-term PM2.5 and cardiovascular admissions in NY State: assessing sensitivity to exposure model choice

Si-liang

et al. 2021

Environ Health

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Background Air pollution health studies have been increasingly using prediction models for exposure assessment even in areas without monitoring stations. To date, most studies have assumed that a single exposure model is correct, but estimated effects may be sensitive to the choice of exposure model. Methods We obtained county-level daily cardiovascular (CVD) admissions from the New York (NY) Statewide Planning and Resources Cooperative System (SPARCS) and four sets of fine particulate matter (PM2.5) spatio-temporal predictions (2002–2012). We employed overdispersed Poisson models to investigate the relationship between daily PM2.5 and CVD, adjusting for potential confounders, separately for each state-wide PM2.5 dataset. Results For all PM2.5 datasets, we observed positive associations between PM2.5 and CVD. Across the modeled exposure estimates, effect estimates ranged from 0.23% (95%CI: -0.06, 0.53%) to 0.88% (95%CI: 0.68, 1.08%) per 10 µg/m3 increase in daily PM2.5. We observed the highest estimates using monitored concentrations 0.96% (95%CI: 0.62, 1.30%) for the subset of counties where these data were available. Conclusions Effect estimates varied by a factor of almost four across methods to model exposures, likely due to varying degrees of exposure measurement error. Nonetheless, we observed a consistently harmful association between PM2.5 and CVD admissions, regardless of model choice.

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Comparison of multiple PM_2.5 exposure products for estimating health benefits of emission controls over New York State, USA

Cited by 35 publications

References 85 publications

Methods, availability, and applications of PM_2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Methods, availability, and applications of PM_2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Fine Particle Exposure and Clinical Aggravation in Neurodegenerative Diseases in New York State

Short-term PM2.5 and cardiovascular admissions in NY State: assessing sensitivity to exposure model choice

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Comparison of multiple PM2.5 exposure products for estimating health benefits of emission controls over New York State, USA

Cited by 35 publications

References 85 publications

Methods, availability, and applications of PM2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Methods, availability, and applications of PM2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Fine Particle Exposure and Clinical Aggravation in Neurodegenerative Diseases in New York State

Short-term PM2.5 and cardiovascular admissions in NY State: assessing sensitivity to exposure model choice

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Product

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Comparison of multiple PM_2.5 exposure products for estimating health benefits of emission controls over New York State, USA

Methods, availability, and applications of PM_2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models

Methods, availability, and applications of PM_2.5 exposure estimates derived from ground measurements, satellite, and atmospheric models