Determination of Human Ventricular Repolarization by Noncontact Mapping. Validation With Monophasic Action Potential Recordings

doi:10.1161/01.CIR.0000141734.43393.BE

Published Online
on September 7, 2004

Circulation. 2004
Published online before print September 7, 2004, doi: 10.1161/01.CIR.0000141734.43393.BE

A more recent version of this article appeared on September 14, 2004

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	Electrophysiology

Submitted on December 19, 2003
Revised on March 19, 2004
Accepted on March 23, 2004

Determination of Human Ventricular Repolarization by Noncontact Mapping. Validation With Monophasic Action Potential Recordings

Arthur M. Yue MRCP, John R. Paisey MRCP, Steve Robinson , Tim R. Betts MD, MRCP, Paul R. Roberts MD, MRCP, and John M. Morgan MD, FRCP^*

From the Wessex Cardiac Unit, Southampton General Hospital, Southampton, England.

^* To whom correspondence should be addressed. E-mail: jmm{at}cardiology.co.uk.

Background--Noncontact mapping (NCM) has not been validatedas a clinical technique to measure ventricular repolarization.We used NCM to determine repolarization characteristics by analysisof reconstructed unipolar electrograms (UEs) at the same sitesas monophasic action potential (MAP) recordings in the humanventricle.

Methods and Results--MAPs were recorded from a totalof 355 beats at 46 sites in the left or right ventricle of 9patients undergoing ablation of ventricular tachycardia guidedby NCM (EnSite system). Measurements were made during sinusrhythm, constant right ventricular pacing, and ventricular extrastimuliduring restitution-curve construction. The EnGuide locator signalwas used to document MAP catheter locations on the endocardialgeometry. UE-determined activation-recovery interval (ARI) measuredat the maximum derivative of the T wave (Wyatt method) and theminimum derivative of the positive T wave (alternative method)was correlated with MAP measured at 90% repolarization (MAP90%)at the same sites. ARI correlated with MAP90% during steadystate by the Wyatt method (r=0.83, P<0.001) and the alternativemethod (r=0.94, P<0.001). Restitution curves constructedfrom MAP and UE data exhibited the same characteristics, witha mean correlation coefficient of 0.95 (range, 0.90 to 0.99,P<0.001). The error between ARI and MAP90% was greater overa shorter diastolic coupling interval but was not influencedby distance of the sampling site from the multielectrode array.

Conclusions--NCMaccurately determines steady-state and dynamic endocardial repolarizationin humans. Global, high-density, NCM data could be used to characterizeabnormalities of human ventricular repolarization.

Key words: electrophysiology • mapping • ventricles • potentials

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