Toxicology of 85Kr: effects of whole-body immersion exposure on newborn rats.

Newborn rats exposed to 85Kr exhibited acute radiation effects, e.g. epilation, skin scaling and abnormal development of the extremities, at beta immersion doses in excess of 1000 rad to the skin surface. The incidence of skin tumors, principally basal-cell carcinomas, was increased at all dose levels over the range from 1000 to 4750 rad. The effective skin-surface dose to induce basal-cell carcinoma in the newborn Wistar rat is apparently less than 1000 rad, the lowest dose employed in this study. No lung tumors attributable to 85Kr exposure were observed in these rats.

Toxicology of 85Kr: tissue distribution and retention in the rat.

Wistar rats were exposed to 85Kr gas atmospheres to determine saturation/desaturation kinetics in major tissues. Tissue partition coefficients [concentration 85Kr in tissue (muCi/g)/concentration of 85Kr in the atmosphere (muCi/cc)] were determined following equilibration with 85Kr gas. Tissue partition coefficients were highest for adrenals and fat; lowest for bone, heart and brain. Tissue partition coefficients for immature rats, 1-12 days of age, and for adults, were not significantly different. The highest concentrations of 85Kr were found in fatty tissues and in gas pockets in the intestinal lumen.