FACTORS INFLUENCING DIISOPROPYL FLUOROPHOSPHATE-INDUCED HYPOTHERMIA AND HYPERTHERMIA IN THE RAT

Exposing rats to the anticholinesterase (anti-ChE) diisopropyl fluorophosphate (DFP) causes a transient period of hypothermia followed by a period of hyperthermia lasting approximately 48 h. Because a fever is a predominant thermoregulatory response in humans exposed to anti-ChE pesticides, the hyperthermic response in the rat may be important to understanding the central neural mechanisms of anti-ChEs. The purpose of the present study was to assess the dependence of DFP-induced thermoregulatory changes on basal behavioral and autonomic activity in the rat. Core temperature (T-c), heart rate (HR), and motor activity (MA) were monitored via radiotelemetry in unrestrained rats 24 h prior to and 72 h after administration of the peanut oil vehicle or 1.5 mg/kg DFP. Mean T-c decreased by similar to 4 degrees C by 4 h after DFP, returned to baseline by 27 h, and then remained similar to 0.8 degrees C above control daytime levels during the second day after DFP injection. Correlations of DFP-induced hypothermia and hyperthermia with baseline T-c, HR, and MA were performed. The baseline T-c was inversely correlated with the magnitude of DFP-induced hyperthermia (r(2) = 0.6). DFP-induced hyperthermia was also inversely correlated with baseline HR and MA. The minimum core temperature during DFP-induced hypothermia was directly correlated with the baseline T-c. The inverse pattern between baseline T-c and DFP-induced hyperthermia is similar to that of rats administered endotoxin and other pyrogenic agents. Sixty percent of the variation in DFP-induced hyperthermia, a toxic response seen >48 h after exposure, can be explained by individual differences in baseline T-c. This relationship may be important in understanding the thermoregulatory and metabolic effects of anti-ChE agents.