Effects of Hypertrophy on Regional Action Potential Characteristics in the Rat Left Ventricle : A Cellular Basis for T-Wave Inversion?

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Circulation. 1997;96:2061-2068

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(Circulation. 1997;96:2061-2068.)
© 1997 American Heart Association, Inc.

Articles

Effects of Hypertrophy on Regional Action Potential Characteristics in the Rat Left Ventricle

A Cellular Basis for T-Wave Inversion?

S. Jane Shipsey, MRCP; Simon M. Bryant, PhD; ; George Hart, DM, FRCP

From the Department of Cardiovascular Medicine, University of Oxford, John Radcliffe Hospital, Oxford, UK.

Correspondence to Dr S.J. Shipsey, Department of Cardiovascular Medicine, John Radcliffe Hospital, Oxford OX3 9DU, UK.

Background In cardiac hypertrophy, ECG T-wave changes implyan abnormal sequence of ventricular repolarization. We investigatedthe hypothesis that this is due to changes in the normal regionaldifferences in action potential duration. We assessed the contributionof potassium- and calcium-dependent currents to these differences.Both the altered sequence of ventricular repolarization andthe underlying cellular mechanisms may contribute to the increasedincidence of ventricular arrhythmias in hypertrophy.

Methods and Results Rats received daily isoproterenol injectionsfor 7 days. Myocytes were isolated from basal subendocardial (endo),basal midmyocardial (mid), and apical subepicardial (epi) regionsof the left ventricular free wall. Action potentials were stimulatedwith patch pipettes at 37°C. The ratio of heart weight tobody weight and mean cell capacitance are increased by 22% and18%, respectively, in hypertrophy compared with controls (P<.001).Normal regional differences in action potential duration at25% repolarization (APD₂₅) are reduced in hypertrophy (control:endo, 11.4±0.9 ms; mid, 8.2±0.9 ms; epi, 5.1±0.4ms; hypertrophy: endo, 11.6±0.9 ms; mid, 10.4±0.8ms; epi, 7.8±0.6 ms). The regional differences in APD₂₅are still present in 3 mmol/L 4-aminopyridine. Hypertrophy affects APD₇₅differently, depending on the region of origin of myocytes (ANOVAP<.05). APD₇₅ is shortened in subendocardial myocytes butis prolonged in subepicardial myocytes (control: endo, 126±7ms; epi, 96±10 ms; hypertrophy: endo, 91±6 ms;epi, 108±7 ms). These changes in APD₇₅ are altered byintracellular calcium buffering.

Conclusions Normal regional differences in APD and the changesobserved in hypertrophy are only partially explained by differencesin I_to1. In hypertrophy, the normal endocardial/epicardial gradientin APD₇₅ appears to be reversed. This may explain the T-wave inversionobserved and will have implications for arrhythmogenesis.

Key Words: hypertrophy • action potentials • myocytes • endocardium • catecholamines

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