Abstract
This study was designed to determine the deposition patterns and fate of large particles inhaled by two species of small laboratory animals during nose breathing. Rats and guinea pigs inhaled 3-, 9-, or 15μm polystyrene latex microspheres labeled with 46Sc. Approximately 1.4% and 0.55% of the initial internally deposited body burden of 3-μm microspheres was in the alveolar region of the respiratory tract of rats and guinea pigs, respectively. None of the 9- or 15-μm microspheres were detected in the alveolar regions of the rats or guinea pigs. Ninety-five to 99% of the deposited microspheres cleared from these animals with biological half-times of 0.5—1.0 day. Most of the cleared radioactivity was in the feces. Approximations for long-term biological half-times for alveolar retention of the 3-μm microspheres were 63 days for rats and 83 days for guinea pigs. About 1% of the initial lung burden of 3-μm microspheres was translocated from lung to lung-associated lymph nodes in both species; none of the 9- or 15-μm microspheres were detected in those lymph nodes. Small fractions of the microspheres initially deposited in the airways of the head were retained with biological clearance half-times ranging from 9 to 350 days. Results from this study do not allow projections for deposition and retention patterns for similar particles inhaled by humans. Such projections must come from studies with humans, or from studies with animal species having deposition patterns for inhaled materials more comparable to those of humans.