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Adenosine A2A receptor antagonists are broad facilitators of antinicotinic neuromuscular blockade monitored either with 2‐Hz train‐of‐four or 50‐Hz tetanic stimuli

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Clinical and Experimental Pharmacology and Physiology

Published online on

Abstract

he 2‐Hz train‐of‐four ratio (TOFratio) is used to monitor the degree of patient curarization. Using a rat phrenic nerve‐hemidiaphragm preparation, we showed that antinicotinic agents, such as hexamethonium, D‐tubocurarine, and pancuronium but not cisatracurium, decreased contractions produced by physiological nerve activity patterns (50 Hz) more efficiently than those caused by 2‐Hz trains. Uncertainty about the usefulness of the TOFratio to control safe recovery from curarization prompted us to investigate the muscarinic and adenosine neuromodulation of tetanic (50 Hz) fade induced by antinicotinic agents at concentrations that cause a 25% reduction in the TOFratio (TOFfade). Tetanic fade caused by D‐tubocurarine, pancuronium, and hexamethonium was attenuated by blocking presynaptic inhibitory muscarinic M2 and adenosine A1 receptors with methoctramine and DPCPX, respectively. These compounds enhanced rather than decreased tetanic fade induced by cisatracurium, but they consistently attenuated cisatracurium‐induced TOFfade. The effect of the M1 antagonist pirenzepine on fade produced by antinicotinic agents at 50‐Hz was opposite to that observed with TOF stimulation. Blockade of adenosine A2A receptors with ZM 241385 attenuated TOFfade caused by all tested antinicotinic drugs, with the exception of the “pure” presynaptic nicotinic antagonist hexamethonium. ZM 241385 was the only compound tested in this series that facilitated recovery from tetanic fade produced by cisatracurium. The data suggest that distinct antinicotinic relaxants interfere with fine‐tuning neuromuscular adaptations to motor nerve stimulation patterns via presynaptic muscarinic and adenosine receptor activation. These results support the use of A2A receptor antagonists together with atropine to facilitate recovery from antinicotinic neuromuscular blockade. © 2012 The Authors Clinical and Experimental Pharmacology and Physiology © 2012 Blackwell Publishing Asia Pty Ltd