Naltrexone, in relatively high doses, has been reported to cause a fall in body temperature in human ex-heroin addicts who had been abstinent for at least 6 weeks. The underlying mechanism of this hypothermic effect has been investigated in rats. The first consideration was that the temperature change was a reflection of delayed withdrawal but rats implanted with a morphine pellet 45 days earlier showed no significant change in temperature after a dose of naltrexone that caused marked withdrawal hypothermia in dependent rats implanted 3 days previously. A fall in core temperature was only induced in rats after doses of 80 and 160 mg/kg i.p. of naltrexone. Behavioral thermoregulatory studies revealed that the animals correct the falling body temperature by increased exposure to a radiant heat source indicating that the central thermostats had not been significantly affected by the drug. These data suggest that the major component in the hypothermic effect of naltrexone is activation of efferent heat loss pathways or peripheral heat loss mechanisms. Due to current suggestions that opiate receptors might represent the receptors for an endogenous transmitter the results are discussed in relation to this consideration. When compared to the sites and mechanism of action of opiates on thermoregulation the results with naltrexone lend little support to the hypothesis that the fall in temperature is due to displacement of an endogenous substance from central opiate receptors.