Autonomic blockade and cardiovascular responses to static exercise in partially curarized man.

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Autonomic blockade and cardiovascular responses to static exercise in partially curarized man.

J H Mitchell, D R Reeves, Jr, H B Rogers, N H Secher and R G Victor

Department of Anaesthesia, Rigshospitalet, University of Copenhagen, Denmark.

1. The cardiovascular responses, heart rate and mean arterialpressure, were followed in seventeen human subjects who performedstatic handgrip contractions for 2 min at the same absoluteforce (15% of the initial maximal voluntary contraction strength)before and during partial curarization. In control contractionsthe rate of perceived exertion was 10 exertion units, 16 unitsin contractions with tubocurarine which could be maintainedand 20 units in contractions that could not be maintained. Controlcontractions increased mean arterial pressure by 6 mmHg from89 mmHg while heart rate was unchanged from the resting valueof 68 beats min-1. With tubocurarine, larger increases in meanarterial pressure of 11 mmHg and for heart rate of 8 beats min-1were obtained during maintained contractions, and 15 mmHg and16 beats min-1, respectively, during non-maintained contractions.2. Atropine increased resting heart rate and blood pressurewith tubocurarine to 107 beats min-1 and 98 mmHg, respectively,in seven subjects. The blood pressure response to exercise withtubocurarine was unaffected by atropine, but the heart rateincrease was reduced from 15 to 4 beats min-1. 3. Propranololreduced resting heart rate with tubocurarine to 56 beats min-1with no effect on blood pressure in seven subjects. The cardiovascularresponses to exercise with tubocurarine were unaffected by propranolol.In contrast, phentolamine reduced resting blood pressure withtubocurarine to 80 mmHg without affecting heart rate in sevensubjects. Exercise responses with tubocurarine were unaffectedby phentolamine. Combinations of atropine and propranolol infourteen subjects or atropine and phentolamine in five subjectsshowed similar results during exercise with tubocurarine aswith the sole use of the agents used to block autonomic receptors.4. The results suggest that when partial curarization inducesa disproportion between the signal from central command andthat from exercising muscles, the larger signal arising fromcentral command determines the magnitude of the cardiovascularresponses. The centrally generated heart rate response is inpart caused by vagal withdrawal. However, the blood pressureresponse cannot be attenuated by the sole use of alpha- or beta-receptoradrenergic blockade or combinations of these with atropine.This suggests that there may be greater redundancy in the autonomiccontrol of blood pressure than in the vagal control of heartrate associated with central command during static exercisein man.

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