Course of the post-irradiation syndrome after irradiation with lethal doses in newborn conventional, germ-free and Escherichia coli-monoassociated piglets.

Abstract

The influence of whole-body irradiation with lethal doses of ionizing radiation (60Co) was studied in conventional, germ-free andEscherichia coli-monoassociated newborn piglets. The dose 1,200 R produced an acute intestinal death (i.e. within 3–4 days) in conventional animals, whereas survival was three times as long in their germ-free counterparts. Artificial colonization of the intestinal tract of germ-free piglets with non-pathogenic strain ofEscherichia coli, prior to irradiation with the same dose, produced the conventionalization of these animals and reduction in the survival time almost to the level of conventional animals. In conventional animals, profound focal regressive changes of the epithelium accompanying the denudation of intestinal villi were found already on the 2nd–3rd day after irradiation with 1,200 R. On the other hand, the intestinal epithelium of germ-free piglets, irradiated with 1,200 R, was found to be intact on the 7th–9th day of post-irradiation, and the first signs of damage started to occur around the 9–10th days. The morphological characteristics of the intestinal mucous membrane ofEscherichia coli-monoassociated piglets were comparable to those of conventional, irradiated piglets. The role of the presence of the microbial factor for the turnover and radiosensitivity-resistance of enterocytes, and for the survival-death rate of animals irradiated with doses producing the post-irradiation gastro-intestinal syndrome, is discussed.