Electromechanical Characterization of Chronic Myocardial Infarction in the Canine Coronary Occlusion Model

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Circulation. 1998;98:2055-2064

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(Circulation. 1998;98:2055-2064.)
© 1998 American Heart Association, Inc.

Basic Science Reports

Electromechanical Characterization of Chronic Myocardial Infarction in the Canine Coronary Occlusion Model

Lior Gepstein, MD; Alexander Goldin, PhD; Jonathan Lessick, MD, DSc; Gal Hayam, BSc; Shlomo Shpun, DSc; Yitzhak Schwartz, MD; Guil Hakim, BSc; Rona Shofty, DVM; Aharon Turgeman, MSc; Dina Kirshenbaum, MSc; ; Shlomo A. Ben-Haim, MD, DSc

From the Cardiovascular System Laboratory, The Bruce Rappaport Faculty of Medicine, Technion-Israel Institute of Technology, Haifa, Israel.

Correspondence to Lior Gepstein, MD, Cardiovascular System Laboratory, The Bruce Rappaport Faculty of Medicine, Technion-Israel Institute of Technology, Efron St, POB 9649, 31096 Haifa, Israel. E-mail mdlior{at}tx.technion.ac.il

Background—Defining the presence, extent, and nature ofthe dysfunctional myocardial tissue remains a cornerstone indiagnostic cardiology. A nonfluoroscopic, catheter-based mapping techniquethat can spatially associate endocardial mechanical and electricaldata was used to quantify electromechanical changes in the caninechronic infarction model.

Methods and Results—We mapped the left ventricular (LV)electromechanical regional properties in 11 dogs with chronicinfarction (4 weeks after LAD ligation) and 6 controls. By samplingthe location of a special catheter throughout the cardiac cycleat multiple endocardial sites and simultaneously recording localelectrograms from the catheter tip, the dynamic 3-dimensionalelectromechanical map of the LV was reconstructed. Average endocardiallocal shortening (LS, measured at end systole and normalizedto end diastole) and intracardiac bipolar electrogram amplitudewere quantified at 13 LV regions. Endocardial LS was significantlylower at the infarcted area (1.2±0.9% [mean±SEM],P<0.01) compared with the noninfarcted regions (7.2±1.1%to 13.5±1.5%) and with the same area in controls (15.5±1.2%,P<0.01). Average bipolar amplitude was also significantlylower at the infarcted zone (2.3±0.2 mV, P<0.01) comparedwith the same region in controls (10.3±1.3 mV) and withthe noninfarcted regions (4.0±0.7 to 10.2±1.5 mV,P<0.01) in the infarcted group. In addition, the electricalmaps could accurately delineate both the location and extent ofthe infarct, as demonstrated by the high correlation with pathology (Pearson'scorrelation coefficient=0.90) and by the precise identificationof the infarct border.

Conclusions—Chronic myocardial infarcted tissue can be characterizedand quantified by abnormal regional mechanical and electricalfunctions. The unique ability to assess the regional ventricularelectromechanical properties in various myocardial disease statesmay become a powerful tool in both clinical and research cardiology.

Key Words: mechanics • myocardial infarction • electrophysiology • mapping

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