Circadian variability of body temperature responses to methamphetamine

Abstract: Vital parameters of living organisms exhibit circadian rhythmicity. Although rats are nocturnal animals, most of the studies involving rats are performed during the day. The objective of this study was to examine the circadian variability of the body temperature responses to methamphetamine. Body temperature was recorded in male Sprague-Dawley rats that received intraperitoneal injections of methamphetamine (Meth, 1 or 5 mg/kg) or saline at 10 AM or at 10 PM. The baseline body temperature at night was 0.8°C hi… Show more

“…As shown above, at equilibrium, if there is no heat exchange between the organ and its environment (other than through the circulation), the organ temperature cannot be more than 1.3 C higher than the arterial blood temperature. Furthermore, the core temperature in rats fluctuates between »37 and 38 C, with a potential to decrease to »36 C during sleep [25,26] and to increase to »39 C during intense exercise [27][28][29][30][31][32] or pharmacological stimulation [33][34][35]. As such, the physiological range of the core temperature is almost three times wider than the maximum effect of local metabolism.…”

Tissue oxidative metabolism can increase the difference between local temperature and arterial blood temperature by up to 1.3^oC: Implications for brain, brown adipose tissue, and muscle physiology

“…As shown above, at equilibrium, if there is no heat exchange between the organ and its environment (other than through the circulation), the organ temperature cannot be more than 1.3 C higher than the arterial blood temperature. Furthermore, the core temperature in rats fluctuates between »37 and 38 C, with a potential to decrease to »36 C during sleep [25,26] and to increase to »39 C during intense exercise [27][28][29][30][31][32] or pharmacological stimulation [33][34][35]. As such, the physiological range of the core temperature is almost three times wider than the maximum effect of local metabolism.…”

Tissue oxidative metabolism can increase the difference between local temperature and arterial blood temperature by up to 1.3^oC: Implications for brain, brown adipose tissue, and muscle physiology

Thermoregulatory effects of psychostimulants and exercise: data-driven modeling and analysis