Long term exposure to heat reduces edema formation after closed head injury in the rat

Abstract

Cerebral edema is one of the major consequences of head trauma (HT); its evolution may cause secondary ischemia and neuronal damage. In a closed head injury model in rats, we have shown BBB disruption and edema formation during the post traumatic period. We have previously shown that chronic exposure to moderate heat improves clinical outcome of rats subjected to HT. Long term exposure to heat results in the achievement of a stable acclimated state, characterized by a lower metabolic rate and improved heat tolerance. In the present study, we investigated the effect of chronic exposure to heat on edema formation after HT. Rats were held at 24 degrees C (CON) or 34 degrees C (ACC) for one month. Injury was then induced under ether anesthesia by a weight drop device. Four or 48 hours later, they were sacrificed for evaluation of BBB integrity (Evans blue, EB, extravasation) or edema formation (specific gravity, SG, or percent water). We found that EB uptake by the contused hemisphere was 6 fold lower in the ACC rats as compared to CON (p < 0.001). Furthermore, edema measured at 48 h by both SG and percent water methods was significantly lower in the acclimated rats (p < 0.01). We suggest that heat acclimation offers protection to rats subjected to head injury, possibly by reduction of plasma proteins extravasation.