Effect of hypercapnic acidosis on induction of arrhythmias by catecholamines in cat papillary muscles

Abstract

The effect of changes in PCO2 upon induction of arrhythmias in cat papillary muscles was studied. The average norepinephrine (NE) dose necessary to produce spontaneous contractions in muscles stimulated at rates of 10/min was higher at high PCO2. Whereas 2 100 +/- 295 X 10(-8) mol/litre of NE was necessary during acidosis, only 824 +/- 295 X 10(-8) mol/litre was necessary to produce spontaneous contractions in alkalosis. In quiescent muscles, the necessary doses in acidosis and alkalosis were 2 209 +/- 531 X 10(-8) and 518 +/- 159 X 10(-8) mol/litre respectively. With isoproterenol 458 +/- 84 X 10(-8) mol/litre was necessary to reach the end point at high PCO2, whereas only 131 +/- 52 X 10(-8) mol/litre was required at low PCO2. The lower sensitivity to catecholamine-induced arrhythmias with hypercapnic acidosis does not appear to be related to the re-uptake of the neurotransmitter by the nerve ending since it is also present with isoproterenol.