Author
Listed:
- Dale Hattis
- Abel Russ
- Robert Goble
- Prerna Banati
- Margaret Chu
Abstract
Part of the explanation for the persistent epidemiological findings of associations between mortality and morbidity with relatively modest ambient exposures to airborne particles may be that some people are much more susceptible to particle‐induced responses than others. This study assembled a database of quantitative observations of interindividual variability in pharmacokinetic and pharmacodynamic parameters likely to affect particle response. The pharmacodynamic responses studied included data drawn from epidemiologic studies of doses of methacholine, flour dust, and other agents that induce acute changes in lung function. In general, the amount of interindividual variability in several of these pharmacodynamic response parameters was greater than the variability in pharmacokinetic (breathing rate, deposition, and clearance) parameters. Quantitatively the results indicated that human interindividual variability of breathing rates and major pharmacokinetic parameters—total deposition and tracheobronchial clearance—were in the region of Log(GSD) = 0.1 to 0.2 (corresponding to geometric standard deviations of 10.1 – 10.2 or 1.26 – 1.58). Deposition to the deep lung (alveolar region) appeared to be somewhat more variable: Log(GSD) of about 0.3 (GSD of about 2). Among pharmacodynamic parameters, changes in FEV1 in response to ozone and metabisulfite (an agent that is said to act primarily on neural receptors in the lung) were in the region of Log(GSD) of 0.2 to 0.4. However, similar responses to methacholine, an agent that acts on smooth muscle, seemed to have still more variability (0.4 to somewhat over 1.0, depending on the type of population studied). Similarly high values were suggested for particulate allergens. Central estimates of this kind of variability, and the close correspondence of the data to lognormal distributions, indicate that 99.9th percentile individuals are likely to respond at doses that are 150 to 450‐fold less than would be needed in median individuals. It seems plausible that acute responses with this amount of variability could form part of the mechanistic basis for epidemiological observations of enhanced mortality in relation to ambient exposures to fine particles.
Suggested Citation
Dale Hattis & Abel Russ & Robert Goble & Prerna Banati & Margaret Chu, 2001.
"Human Interindividual Variability in Susceptibility to Airborne Particles,"
Risk Analysis, John Wiley & Sons, vol. 21(4), pages 585-600, August.
Handle:
RePEc:wly:riskan:v:21:y:2001:i:4:p:585-600
DOI: 10.1111/0272-4332.214137
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Cited by:
- Alison C. Cullen & Mark A. Corrales & C. Bradley Kramer & Elaine M. Faustman, 2008.
"The Application of Genetic Information for Regulatory Standard Setting Under the Clean Air Act: A Decision‐Analytic Approach,"
Risk Analysis, John Wiley & Sons, vol. 28(4), pages 877-890, August.
- Stéphane Hallegatte & Jun Rentschler, 2015.
"Risk Management for Development—Assessing Obstacles and Prioritizing Action,"
Risk Analysis, John Wiley & Sons, vol. 35(2), pages 193-210, February.
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