References
- US EPA. Methods for derivation of inhalation reference concentrations and application of inhalation dosimetry, EPA/600/8-90/066F. USEPA, Research Triangle Park, NC 1994
- Menache M. G., Raabe O. G., Miller F. J. An empirical dosimetry model of aerodynamic particle deposition in the rat respiratory tract. Inhalation Toxicology (1996); 8: 539–576
- Wojciak J. F. Theoretical and experimental analyses of aerosol deposition in the lung: Implications for human health effects, Ph.D. Thesis. University of Rochester. 1988
- Yeh H. C. Use of a heat transfer analogy for a mathematical model of respiratory tract deposition. Bull. Math. Biol. (1974); 36: 105–116
- Ingham D. B. Diffusion of aerosols from a stream flowing through a cylindrical tube. J. Aerosol Sci. (1975); 6: 125–132
- Yeh H. C., Schum G. M. Models of human lung airways and their application to inhaled particle deposition. Bulletin of Mathematical Biology (1980); 42: 461–480
- Schum G. M., Yeh H. C. Theoretical evaluation of aerosol deposition in anatomical models of mammalian lung airways. Bulletin of Mathematical Biology (1980); 42: 1–15
- Graham R. C, Menache M. G., Overton J. H. Models of the tracheobronchial airways of the dog lung. Inhalation Toxicology (1996); 8: 121–142
- Kepler G. M., Richardson R. B., Morgan K. T., Kimbell J. S. Computer simulation of inspiratory nasal airflow and inhaled gas uptake in a rhesus monkey. Tox, Appl. Pharm. (1998); 150: 133–145
- Bush M. L., Fredrick C. B., Kimbell J. S., Ultman J. S. A CFD-PBPK hybrid model for simulating gas and vapor uptake in the rat nose. Tox, Appl. Pharm. (11); 11: 1–11
- Dripps R. D. The respiratory and circulatory response of norma man to inhalation of 7.6 and 10.4% CO2 with a comparson of the maximal ventilation produced by severe muscular exercise, inhalation of C02, and maximal voluntary hyperventilation. AM. J. Physiol. (1947); 7: 43–51
- Cherniak R. M. Work of breathing and the ventilatory response to C02. Handbook of Physiology Section 3: Respiration II, W. O. Fenn, H. Rahn. The American Physiology Society, Waverly Press, Inc., Baltimore, MD 1964
- Hartzell G. E. Preadiction of the toxic effects of fire effluents. Fire Sci. (1989); 7: 179–193
- Tepper J. S., Wiester M. J., King M. E., Weber M. F., Costa D. L. Use of carbon dioxide challenge to detect toxicant-induced changes in cardiopulmonary function of awake rats. Inhalation Toxicology (1988); 1: 79–95
- Landahl H. D. On the removal of airborne droplets by the human respiratory tract: I. The lung. Bull. Math. Biophys. (1950); 12: 43–56
- Landhal H. D. Particle removal by the respiratory system: Note on the removal of airborne particulates by the human respiratory tract with particular reference to the role of diffusion. Bull. Math. Biophys. (1963); 25: 29–39
- Beekmans J. M. The depisition of aerosols in the respiratory tract 1: Mathematical analysis and comparison with experimental data. Can. J. Physiol. Pharmacol. (1965); 43: 157–172
- Smith E. A., Kimmel E. C, Bowen L. E., Reboulet J. E., Carpenter R. L. Preliminary assessment of a pyrotechnically generated aerosol fire suppressant. Inhalation Toxicology (1997); 9: 449–463
- Kimmel E. C, Smith E. A., Reboulet J. E., Still K. R., Carpenter R. L. The physicochemical properties of SFE fire suppressant atmospheres in toxicity vs. Fire extinguishment tests: Implications for aerosol deposition and toxicity, NMRI/TD Technical Report. NTIS, Springfield, Virginia 1997
- Kimmel E. C, Carpenter R. L., Smith E. A., Reboulet J. E., Black B. H. Physiologic models for comparison of inhalation risk between laboratory and field generated atmospheres of a dry powder fire suppressant. Inhalation toxicology. (1998), in press
- Hoffmann W., Bergmann R. Predictions of particle deposition patterns in human and rat airways. Inhalation Toxicology (1998); 10: 557–583
- Pedley T. J. Pulmonary fluid dynamics. Ann. Rev. Fluid Meek (1977); 9: 229–274
- West G. B., Brown J. H., Enquist B. J. A general model for the origin of allometric scaling laws in biology. Science (1997); 276: 122–126