REFERENCES
- Bertalanffy, F. D. 1968. Dynamics of cellular populations in the lung. In The Lung, eds. A. A. Liebow and D. E. Smith, pp. 19–30. Baltimore, MD: Williams & Wilkins.
- Kreyling, W. G. 1992. Intracellular particle dissolution in alveolar macrophages. Environ. Health Perspect. 97:121–126.
- Mercer, T. T. 1967. On the role of particle size in the dissolution of lung burdens. Health Phys. 13:1211–1221.
- Morrow, P. E. 1988. Possible mechanisms to explain dust overloading of the lungs. Fundam. Appl. Toxicol. 10:369–384.
- Stöber, W., and Arnold, M. 1961. Anomalien bei der Ablösung von Kiesel-säure von der Oberfläche feinkörniger Siliziumdioxidpulver. Kolloid Z. 174:20–27.
- Stöber, W., and McClellan, R. O. 1997. Pulmonary retention and clearance of inhaled biopersistent aerosol particles: Data-reducing interpolation models and models of physiologically based sys-tems—A review of recent progress and remaining problems. Crit. Rev. Toxicol. 27(6):539–598.
- Stöber, W., Morrow, P. E., Koch, W., and Morawietz, G. 1994. Alveolar clearance and retention of inhaled insoluble particles by a model inferring macrophage particle load distributions. J. Aerosol Sci. 25(5):975–1002.
- Stöber, W., Miller, F. J., and McClellan, R. O. 1998. Requ irements for a credible extrapolation model derived from health effects in rats exposed to particulate air pollution: A way to minimize the risk of human risk assessment? Appl. Occup. Environ. Hyg. 13(6):421–431.
- Stöber, W., Wong, B., Koch, W., and Windt, H. 1999. A Simple Pulmonary Retention Model for Inhaled Soluble Particles of Limited Biological Residence Time. Unpublished report to Chemical Industry Institute of Toxicology (CIIT), Research Triangle Park, NC.