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Methods for Detecting and Estimating Population Threshold Concentrations for Air Pollution‐Related Mortality with Exposure Measurement Error

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  • Sabit Cakmak
  • Richard T. Burnett
  • Daniel Krewski

Abstract

The association between daily fluctuations in ambient particulate matter and daily variations in nonaccidental mortality have been extensively investigated. Although it is now widely recognized that such an association exists, the form of the concentration‐response model is still in question. Linear, no threshold and linear threshold models have been most commonly examined. In this paper we considered methods to detect and estimate threshold concentrations using time series data of daily mortality rates and air pollution concentrations. Because exposure is measured with error, we also considered the influence of measurement error in distinguishing between these two completing model specifications. The methods were illustrated on a 15‐year daily time series of nonaccidental mortality and particulate air pollution data in Toronto, Canada. Nonparametric smoothed representations of the association between mortality and air pollution were adequate to graphically distinguish between these two forms. Weighted nonlinear regression methods for relative risk models were adequate to give nearly unbiased estimates of threshold concentrations even under conditions of extreme exposure measurement error. The uncertainty in the threshold estimates increased with the degree of exposure error. Regression models incorporating threshold concentrations could be clearly distinguished from linear relative risk models in the presence of exposure measurement error. The assumption of a linear model given that a threshold model was the correct form usually resulted in overestimates in the number of averted premature deaths, except for low threshold concentrations and large measurement error.

Suggested Citation

  • Sabit Cakmak & Richard T. Burnett & Daniel Krewski, 1999. "Methods for Detecting and Estimating Population Threshold Concentrations for Air Pollution‐Related Mortality with Exposure Measurement Error," Risk Analysis, John Wiley & Sons, vol. 19(3), pages 487-496, June.
    • Handle: RePEc:wly:riskan:v:19:y:1999:i:3:p:487-496
    DOI: 10.1111/j.1539-6924.1999.tb00423.x
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    1. Ostr, Bart & Sanchez, Jose Miguel & Aranda, Carlos & Eskeland, Gunnar S., 1995. "Air pollution and mortality : results from Santiago, Chile," Policy Research Working Paper Series 1453, The World Bank.
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    1. Mariani, Fabio & Pérez-Barahona, Agustín & Raffin, Natacha, 2010. "Life expectancy and the environment," Journal of Economic Dynamics and Control, Elsevier, vol. 34(4), pages 798-815, April.
    2. Stephanie K. Gower & Stephen McColl, 2005. "Development of the PEARLS Model (Particulate Exposure from Ambient to Regional Lung by Subgroup) and Use of Monte Carlo Simulation to Predict Internal Exposure to PM2.5 in Toronto," Risk Analysis, John Wiley & Sons, vol. 25(2), pages 301-315, April.
    3. Mihaela Onofrei & Anca-Florentina Gavriluţă (Vatamanu) & Ionel Bostan & Bogdan Florin Filip & Claudia Laurența Popescu & Gabriela Jitaru, 2020. "Impacts of the Allocation of Governmental Resources for Improving the Environment. An Empirical Analysis on Developing European Countries," IJERPH, MDPI, vol. 17(8), pages 1-18, April.
    4. Pietro F. Peretto & Simone Valente, 2021. "Growth with Deadly Spillovers," University of East Anglia School of Economics Working Paper Series 2021-05, School of Economics, University of East Anglia, Norwich, UK..
    5. M. Brauer & J. Brumm & S. Vedal & A. J. Petkau, 2002. "Exposure Misclassification and Threshold Concentrations in Time Series Analyses of Air Pollution Health Effects," Risk Analysis, John Wiley & Sons, vol. 22(6), pages 1183-1193, December.

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