Effects of halothane on action potential configuration in sub-endocardial and sub-epicardial myocytes from normotensive and hypertensive rat left ventricle

doi:10.1093/bja/aeg093

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British Journal of Anaesthesia, 2003, Vol. 90, No. 4 501-503
© 2003 The Board of Management and Trustees of the British Journal of Anaesthesia

Short Communications

Effects of halothane on action potential configuration in sub-endocardial and sub-epicardial myocytes from normotensive and hypertensive rat left ventricle

A. Rithalia, P. M. Hopkins¹ and S. M. Harrison

School of Biomedical Sciences and ¹ Academic Unit of Anaesthesia, University of Leeds, Leeds LS2 9JT, UK

Corresponding author. E-mail: s.m.harrison@leeds.ac.uk

Background. Halothane shortens ventricular action potentialduration (APD), as a consequence of its inhibitory effects ona variety of membrane currents, an effect that is greater insub-endocardial than sub-epicardial myocytes. In hypertrophiedventricle, APD is prolonged as a consequence of electrical remodelling.In this study, we compared the effects of halothane on transmuralAPD in myocytes from normal and hypertrophied ventricle.

Methods. Myocytes were isolated from the sub-endocardium andsub-epicardium of the left ventricle of spontaneously hypertensive(SHR) and normotensive Wistar-Kyoto (WKY) rats. Action potentialswere recorded before, during, and after a 1-min exposure to0.6 mM halothane and APD measured from the peak of the actionpotential to repolarization at –50 mV (APD_{–50 mV}).Data are presented as mean (SEM).

Results. In WKY myocytes, halothane reduced APD_{–50 mV}from 21 (2) to 18 (2) ms (P<0.001, n=15) in sub-epicardialmyocytes but abbreviated APD_{–50 mV} to a greater extentin sub-endocardial myocytes (37 (4) to 28 (3) ms; P<0.001,n=14). In SHR myocytes, APD_{–50 mV} values were prolongedcompared with WKY and APD_{–50 mV} was reduced by halothanefrom 36 (6) to 27 (4) ms (P<0.016) and from 77 (10) to 38(4) ms (P<0.001) in sub-epicardial and sub-endocardial myocytes,respectively.

Conclusions. In the SHR, hypertrophic remodelling was not homogeneous;APD_{–50 mV} was prolonged to a greater extent in sub-endocardialthan sub-epicardial cells. Halothane reduced APD to a greaterextent in sub-endocardium than sub-epicardium in both WKY andSHR but this effect was larger proportionately in SHR myocytes.The transmural gradient of repolarization was reduced in WKYand effectively abolished in SHR by halothane, which might disturbnormal ventricular repolarization.

Br J Anaesth 2003; 90: 501–3

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