Association between particulate matter and emergency room visits, hospital admissions and mortality in Spokane, Washington

Akaike H. Information theory and an extension of the maximum likelihood principle. In: Petrov B.N., Csaki F. (Eds.), Proceedings of the Second International Symposium on Information Theory. Budapest Akademiai Kiado, Budapest, 1973, pp. 267–281.

Atkinson R.W., Anderson H.R., Sunyer J., Ayres J., Baccini M., Vonk J.M., Boumghar A., Forastiere F., Forsberg B., Touloumi G., Schwartz J., and Katsouyani K. Acute effects of air pollution on respiratory admissions. Am J Respir Crit Care Med 2001: 164: 1860–1866.

Baeza-Squiban A., Bonvallot V., Boland S., and Marano F. Airborne particles evoke an inflammatory response in human airway epithelium. Cell Biol Toxicol 1999: 15(6): 375–380.

Burnett R.T., Smith-Doiron M., Stieb D., Cakmak S., and Brook J.R. Effects of particulate and gaseous air pollution on cardiorespiratory hospitalizations. Arch Environ Health 1999: 54(2): 130–139.

Claiborn C.S., Finn D., Larson T.V., and Koenig J.Q. Windblown dust contributes to high PM2.5 concentrations. J Air Waste Manag Assoc 2000: 50(8): 1440–1445.

Dominici F., McDermott A., and Hastie T.J. Improved semi-parametric time series models of air pollution and mortality. J Amer Statistical Assoc 2004: under review.

Dominici F., McDermott A., Zeger S.L., and Samet J.M. On the use of generalized additive models in time-series studies of air pollution and health. Am J Epidemiol 2002: 156(3): 193–203.

Fusco D., Forastiere F., Michelozzi P., Spadea T., Ostro B., Arca M., and Perucci C.A. Air pollution and hospital admissions for respiratory conditions in Rome, Italy. Eur Respir J 2001: 17(6): 1143–1150.

Hastie T., and Tibshirani R. Generalized Additive Models. Chapman & Hall: London, 1990.

Health Effects Institute. Revised analyses of time-series studies of air pollution and health, 2003: www.healtheffects.org.

Klein M., Flanders W.D., and Tolbert P.E. Variances may be underestimated using available software for generalized additive models. Presented at Society for Epidemiologic Research Meeting, Palm Desert, CA. Abstract, 2002.

Levy J.I., Hammitt J.K., and Spengler J.D. Estimating the mortality impacts of particulate matter: What can be learned from between-study variability? Environ Health Perspect 2000: 108: 109–117.

Li N., Kim S., Wang M., Froines J., Sioutas C., and Nel A. Use of stratified oxidative stress model to study the biological effects of ambient concentrated and diesel exhaust particulate matter. Inhal Toxicol 2002: 14(5): 459–486.

Lin M., Chen Y., Burnett R.T., Villeneuve P.J., and Krewski D. The influence of ambient coarse particulate matter on asthma hospitalizations in children: case-crossover and time-series analyses. Environ Health Perspect 2002: 110: 575–581.

Lumley T., and Sheppard L. Time series analyses of air pollution and health: straining at gnats while swallowing camels? Epidemiology 2003: 14: 13–14.

McCullagh P., and Nelder J.A. Generalized Linear Models. Chapman & Hall, London, 1989.

Morio L.A., Hooper K.A., Brittinghma J., Li T.-H., Gordon R.E., Turpin B.J., and Laskin D.L. Tissue injury following inhalation of fine particulate matter and hydrogen peroxide is associated with altered production of inflammatory mediators and antioxidants by alveolar macrophages. Toxicol Appl Pharmacol 2001: 177(3): 188–199.

Morris R.D. Airborne particulates and hospital admissions for cardiovascular disease: a quantitative review of the evidence. Environ Health Perspect 2001: 109(Suppl 4): 495–500.

Norris G., Larson T., Koenig J., Cliaborn C., Sheppard L., and Finn D. Asthma aggravation, combustion, and stagnant air. Thorax 2000: 55: 466–470.

Quay J.L., Reed W., Samet J., and Devlin R.B. Air pollution particles induce IL-6 gene expression in human airway epithelia cells via NF-kB activation. Am J Respir Cell Mol Biol 1998: 19(1): 98–106.

Ramsay T., Burnett R., and Krewski D. Exploring bias in a generalized additive model for spatial air pollution data. Environ Health Perspect 2003a: 111(10): 1283–1288.

Ramsay T.O., Burnett R.T., and Krewski D. The effect of concurvity in generalized additive models linking mortality to ambient particulate matter. Epidemiology 2003b: 14(1): 18–23.

Rubin D.B. Inference and missing data. Biometrika 1976: 63: 581–592.

Samet J.M., Zeger S.L., Dominici F., Curriero F., Coursac I., Dockery D.W., Schwartz J., and Zanobetti A. The National Morbidity, Mortality, and Air Pollution Study. Part II: Morbidity and mortality from air pollution in the United States. Respir Rep Health Eff Inst 2000: 94(Part. 2): 5–79.

Schafer J.L. Analysis of Incomplete Multivariate Data. Chapman & Hall, New York, 1997.

Schwartz J. Air pollution and hospital admissions for respiratory disease. Epidemiology 1996: 7: 20–28.

Schwartz J. Air pollution and hospital admissions for heart disease in eight U.S. counties. Epidemiology 1999: 10: 17–22.

Schwartz J., Norris G., Larson T., Sheppard L., Claiborne C., and Koenig J. Episodes of high coarse particle concentrations are not associated with increased mortality. Environ Health Perspect 1999: 107: 339–342.

Sheppard L., Levy D., Norris G., Larson T.V., and Koenig J. Effects of ambient air pollution on nonelderly asthma hospital admissions in Seattle, Washington 1987–1994. Epidemiology 1999: 10: 23–30.