| Author/Editor | Passias, TC; Mekjavić, IB; Eiken, O | |
| Title | The effect of 30% nitrous oxide on thermoregulatory responses in humans during hypothermia | |
| Type | članek | |
| Source | Anesthesiology | |
| Vol. and No. | Letnik 76, št. 4 | |
| Publication year | 1992 | |
| Volume | str. 550-9 | |
| Language | eng | |
| Abstract | Clinical studies have reported that body core temperature decreases during prolonged surgery and anesthesia. Although this finding has been attributed primarily to increased heat loss resulting from exposure of body cavities and infusion of cold solutions, it is generally recognized that anesthesia interferes with the thermoregulatory system. The present study examined the effects of mild narcosis induced by 30 percent N2O on shivering thermogenesis and cutaneous thermoregulatory vasoconstriction in humans, during exposure in a much more intense peripheral thermal stimulus than the ones often used in clinical studies. Nine male subjects were immersed in 15 degrees C water on two separate occasions. During one occasion subjects inspired air (control condition), and during the other occasion the inspired gas mixture contained 20 percent O2, 30 percent N2O, and 50 percent N2 (N2O condition). On both occasions, subjects were immersed to the neck for 60 min, or until their core temperature decreased by 2 degrees C from the preimmersion value. Following the cooling phase, subjects rewarmed via endogenous thermogenesis while lying in a well-insulated bed for 48 min. In the N2O condition, subjects continued to inspire the anesthetic gas mixture during the 48-min period of recovery. O2 uptake (VO2), esophageal temperature (Tes), mean skin temperature (Tsk), mean heat flux (Q) and forearm-fingertip temperature gradient (Tsk-gr) were recorded at 1-min intervals. Tsk and Q in both conditions stabilized within 10 and 25 min of immersion, respectively, and were not significantly different between the two conditions. The cooling rate of Tes was greater during the N2O than the control condition. VO2 increased during the immersion in both conditions and was greater in the control than in the N2O condition. In both conditions, VO2 increased linearly with decreasing Tes, but at any given Tes, VO2 was higher in the control than in the N2O condition.(trunc.) | |
| Descriptors | BODY TEMPERATURE REGULATION HYPOTHERMIA NITROUS OXIDE ADMINISTRATION, INHALATION BODY TEMPERATURE CARBON DIOXIDE HEART RATE OXYGEN CONSUMPTION SHIVERING SKIN TEMPERATURE |