Nuclear scintigraphic assessment of radiation-induced intestinal dysfunction

Radiation-induced damage to the intestine can be measured by abnormalities in the absorption of various nutrients. Changes in intestinal absorption occur after irradiation because of loss of the intestinal absorptive surface and a consequent decrease in active transport. In our study, the jejunal absorption of ^99mTc-pertechnetate, an actively transported γ-ray emitter, was assessed in C3H/Kam mice given total-body irradiation with doses of 4, 6, 8 and 12.5 Gy and correlated with morphological changes in the intestinal epithelium. The absorption of ^99mTc-pertechnetate from the intestinal lumen into the circulation was studied with a dynamic γ-ray-scintigraphy assay combined with a multichannel analyzer to record the radiometry data automatically in a time-dependent regimen. The resulting radioactivity-time curves obtained for irradiated animals were compared to those for control animals. A dose-dependent decrease in absorptive function was observed 3.5 days after irradiation. The mean absorption rate was reduced to 78.8±9.3% of control levels in response to 4 Gy total-body irradiation (mean ± SEM tracer absorption lifetime was 237± 23 s compared to 187 ± 12 s in nonirradiated controls) and to 28.3 ± 3.7% in response to 12.5 Gy (660 ± 76 s). The decrease in absorption of ^99mTc- pertechnetate at 3.5 days after irradiation correlated strongly (P < 0.001) with TBI dose, with the number of cells per villus, and with the percentage of cells in the crypt compartment that were apoptotic or mitotic. A jejunal microcolony assay showed no loss of crypts and hence no measured dose- response effects after 4, 6 or 8 Gy TBI. These results show that dynamic enteroscintigraphy with sodium ^99mTc-pertechnetate is a sensitive functional assay for rapid evaluation of radiation-induced intestinal damage in the clinically relevant dose range and has a cellular basis. (C) 2000 by Radiation Research Society.