Environmental Engineering Reference
In-Depth Information
3. Neas, L.M., Dockery, D.W., Burge, H., Koutrakis, P., and Speizer, F.E., Fungus spores, air pollutants and
other determinants of peak expiratory low, Am. J. Epidemiol ., 143, 797-807, 1996.
4. Delino, R.J., Zeiger, R.S., Seltzer, J.M., Street, D.H., Matteucci, R.M., Anderson, P.R. et al., The effect
of outdoor fungal spore concentrations on daily asthma severity, Environ. Health Perspect ., 105, 622-
635, 1997.
5. Downs, S.H., Mitakakis, T.Z., Marks, G.B., Car, N.G., Belousova, E.G., Leuppi, J.D. et al., Clinical
importance of Alternaria exposure in children, Am. J. Respir. Crit. Care Med ., 164, 455-459, 2001.
6. Soukup, J.M. and Becker, S., Human alveolar macrophage responses to air pollution particulates are
associated with insoluble components of coarse material, including particulate endotoxin, Toxicol. Appl.
Pharmacol ., 171, 20-26, 2001.
7. Schwartz, D.A., Does inhalation of endotoxin cause asthma? Am. J. Respir. Crit. Care Med ., 163, 305-
306, 2001.
8. Monn, C. and Becker S., Cytotoxicity and induction of proinlammatory cytokines from human mono-
cytes exposed to ine (PM 2.5 ) and course particles (PM 10-2.5 ) in outdoor and indoor air, Toxicol. Appl.
Pharmacol ., 155, 245-252, 1999.
9. Monn, C., Naef, R., and Koller, T., Reactions of macrophages exposed to particles <10 microm., Environ.
Res ., 91, 35-44, 2003.
10. Wallace, L., Indoor particles: A review, J. Air Waste Manage. Assoc ., 46, 98-126, 1999.
11. Abt, E., Suh, H.H., Catalano, P., and Koutrakis, P., Relative contribution of outdoor and indoor particles
sources to indoor concentrations, Environ. Sci. Technol ., 34, 3579-3587, 2002.
12. Leaderer, B.P., Naeher, L., Jankun, T., Balenger, K., Holford, T.R., Toth, C. et al., Indoor, outdoor, and
regional summer and winter concentrations of PM 10 , PM 2.5 , SO 4 22 , H 1 , NH 4 1 , NO 3 2 , NH 3 2 , and nitrous acid
in homes with and without kerosene space heaters, Environ. Health Perspect ., 107, 223-231, 1999.
13. Patterson, E. and Eatough, D.J., Indoor/outdoor relationships for ambient PM 2.5 and associated pol-
lutants: Epidemiological implications in Lindon, Utah, J. Air Waste Manage. Assoc ., 50, 103-110,
2000.
14. Wainman, T., Zhang, J., Weschler C.J., and Lioy, P.J., Ozone and limonene in indoor air: A source of
submicron particle exposure, Environ. Health Perspect ., 108, 1139-1145, 2000.
15. Spengler, J.D., Long-term measurements of respirable sulfates and particles inside and outside homes,
Atmos. Environ ., 15, 23-30, 1981.
16. National Research Council, Environmental Tobacco Smoke: Measuring Exposures and Assessing Health
Effects , National Academy Press, Washington, DC, 1986.
17. National Cancer Institute, Monograph 10: Health effects of exposure to environmental tobacco smoke,
National Institutes of Health-National Cancer Institute, 2003, http:/cancercontrol.cancer.gov/tcrb/mono-
graphs/10/m10_complete.pdf
18. Abt, E., Suh, H.H., Allen, G., and Koutrakis, P., Characterization of indoor particle sources: A study
conducted in the metropolitan Boston area, Environ. Health Perspect ., 108, 35-44, 2002.
19. U.S. Environmental Protection Agency (EPA), Air quality criteria for particulate matter, Report No:
EPA/600/P-95-001bF, Washington, DC, April 1996.
20. Miller, F.J., Dosimetry of particles in laboratory animals and humans in relationship to issues surround-
ing lung overload and human health risk assessment, Inhal. Toxicol ., 12, 19-57, 2000.
21. Brain, J.D. and Valberg, P.A., Deposition of aerosol in the respiratory tract, Am. Rev. Respir. Dis ., 120,
1325-1373, 1979.
22. Yeates, D.B. and Mortensen, J., Deposition and clearance, in Murray, J.F., Nadel, J.A., Mason, R.J.,
and Boushey, H.A., Eds., Textbook of Respiratory Medicine , W.B. Saunders Co., New York, 2000,
pp. 349-384.
23. Churg, A. and Vidal, S., Carinal and tubular airway particle concentrations in the large airways of non-
smokers in the general population: Evidence of high particle concentration at airway carinas, Occup.
Environ. Med ., 53, 553-558, 1996.
24. Brauer, M., Avila-Casado, C., Fortoul, T.I., Vedal, S., Stevens, B., and Churg, A., Air pollution and
retained particles in the lung, Environ. Health Perspect ., 109, 1039-1043, 2001.
25. Schlesinger, R.B., Deposition and clearance of inhaled particles, in McClellan, R.O. and Henderson, R.F.,
Eds., Concepts in Inhalation Toxicology , Taylor & Francis, Washington, DC, 1995, pp. 191-224.
26. Pinkerton, K.E., Green, F.H., Saiki, C., Vallyathan, V., Plopper, C.G., Gopal, V. et al., Distribution of
particulate matter and tissue remodeling in the human lung, Environ. Health Perspect ., 108, 1063-1069,
2000.
27. Kim, C.S., Lewars, G.A., and Sackner, M.A., Measurement of total lung aerosol deposition as an index
of lung abnormality, J. Appl. Physiol ., 64, 1527-1536, 1988.
Search WWH ::




Custom Search