Risk Stratification After Myocardial Infarction Using Signal-Averaged Electrocardiographic Criteria Adjusted for Sex, Age, and Myocardial Infarction Location

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Circulation. 1997;96:202-213

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(Circulation. 1997;96:202-213.)
© 1997 American Heart Association, Inc.

Articles

Risk Stratification After Myocardial Infarction Using Signal-Averaged Electrocardiographic Criteria Adjusted for Sex, Age, and Myocardial Infarction Location

Pierre Savard, PhD; Jean-Lucien Rouleau, MD; John Ferguson, MD; Nicole Poitras, BSc; Patrick Morel, MScA; Richard F. Davies, MD, PhD; Duncan J. Stewart, MD; Mario Talajic, MD; Martin Gardner, MD; Robert Dupuis, MD; Claude Lauzon, MD; Bruce Sussex, MD; Louise Potvin, PhD; ; Wayne Warnica, MD

From the Institut de génie biomédical, Ecole Polytechnique, Université de Montréal, and Centre de recherche, Hôpital du Sacré-Coeur, Montréal, Québec (P.S., P.M.); Département de Médecine, Institut de Cardiologie de Montréal (J.-L.R., N.P., M.T.); Memphis (Tenn) Vascular Foundation (J.F.); Department of Medicine, Ottawa (Ontario) Heart Institute (R.F.D.); Department of Medicine, Royal Victoria Hospital, Montréal (D.J.S.); Department of Medicine, Victoria General Hospital, Nova Scotia (M.G.); Département de Médecine, Centre Hospitalier Régional de l'Amiante, Thetford Mines, Québec (R.D., C.L.); Department of Medicine, Health Science Center, St John's, Newfoundland (B.S.); Département de médecine sociale et préventive, Université de Montréal (L.P.); and Department of Medicine, Foothills Hospital, Calgary, Alberta (W.W.), Canada.

Background The objectives were to investigate the factors influencingsignal-averaged ECGs (SAECGs) recorded in patients after myocardialinfarction (MI) and to develop criteria for predicting arrhythmicevents (AEs) that account for these factors.

Methods and Results SAECGs were recorded 5 to 15 days afterMI in 2461 patients without bundle-branch block. The duration (QRSd),terminal potential (VRMS), and terminal duration (LAS) of the filteredQRS were measured. During follow-up (17±8 months), AEs (arrhythmicdeath; ventricular tachycardia, VT; ventricular fibrillation,VF) occurred in 80 patients (3.3%). Receiver operating characteristiccurves showed that QRSd discriminated patients with all typesof AEs, but VRMS and LAS discriminated only VT patients; QRSdminus LAS also discriminated AE patients. Sex, age, and MI locationsignificantly affected the SAECG; survivors without VT or VFwere divided into subgroups (2 sexx4 agex2 MI), and QRSd valuesexceeding the 70th percentile in each subgroup predicted AEswith a sensitivity of 65.4%. An unadjusted QRSd criterion showedthe same overall sensitivity and specificity but with less uniformvalues for each subgroup. A Cox model was constructed by useof multiple prognostic indicators, and in rank order, QRSd, previousMI, and Killip class were predictive of AEs.

Conclusions SAECG adjustments for sex, age, and MI locationdid not improve sensitivity and specificity but produced a moreuniform predictive performance. The proposed criteria are basedonly on QRSd, because late potentials (VRMS and LAS) did not discriminatepatients with sudden death. Duration of high-level activityduring QRS (QRSd-LAS) can predict AEs, suggesting that the arrhythmogenicsubstrate involves a large mass of myocardium.

Key Words: tachycardia • fibrillation • arrhythmia • risk factors • electrocardiography

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