The thermal enhancement of X-ray damage to mouse jejunum has been assessed when heating was achieved by immersion of an exteriorized loop of intestine in Krebs-Ringer solution. The results have been compared with those previously obtained following heating in situ. The primary effect of 1 hour of mild hyperthermia was to reduce the should of the crypt survival curve obtained following X-rays given alone. Thermal enhancement ratio (TER) values increased with increasing temperature, up to 42.3 degrees C, and were within the range reported for other normal tissues. However, when hyperthermia itself caused crypt loss and the contribution of hyperthermal killing to the overall tissue response was taken into account, there was little enhancement of radiation damage. There was no evidence of a large increase in TER at high temperatures, as is seen in some tumours and has been reported by Merino, Peters, Mason and Withers (1978) for intestine. It is possible that very high TER values which have previously been reported mainly reflect the heat-alone component of damage. Some of the implications of these results are discussed in relation to the combination of heat and radiation in therapy.