Effect of chronic hypercapnia on body temperature regulation

KE Schaefer, AA Messier, C Morgan… - Journal of Applied …, 1975 - journals.physiology.org
KE Schaefer, AA Messier, C Morgan, GT Baker 3rd
Journal of Applied Physiology, 1975journals.physiology.org
Guinea pigs and rats exposed to 15% CO2 for 7 days showed a parallel time course of
changes in pH, body temperature (TB), and oxygen consumption (VO2). Between 1 and 6 h
of exposure the maximal drop in actual pH occurred in guinea pigs simultaneously with the
maximal fall in TB and VO2. During the subsequent period pH TB, VO2 rose again. Skin
blood content (heat loss) also exhibited a biphasic pH-dependent time course. Animals
showing no partial compensation of respiratory acidosis during 3 days exposure also failed …
Guinea pigs and rats exposed to 15% CO2 for 7 days showed a parallel time course of changes in pH, body temperature (TB), and oxygen consumption (VO2). Between 1 and 6 h of exposure the maximal drop in actual pH occurred in guinea pigs simultaneously with the maximal fall in TB and VO2. During the subsequent period pH TB, VO2 rose again. Skin blood content (heat loss) also exhibited a biphasic pH-dependent time course. Animals showing no partial compensation of respiratory acidosis during 3 days exposure also failed in raising their TB back to normal in this time. The behavior of TB was found to be a good indicator of the acid-base status and adaptive potential of the animals to hypercapnia. Similar results were obtained in rats. Thermo-regulatory processes in the hypothalamus were affected during exposure to 15% CO2. Both guinea pigs and rats showed a decrease in norepinephrine content of the hypothalamus during the first part of exposure reaching a maximal fall at the end of 24 h. The serotonin content increased slightly during this period. During prolonged exposure to 3% CO2 for 7 days, TB showed a transient rise, and VO2 was slightly elevated.
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