TY - JOUR
T1 - Transmural dispersion of repolarization in failing and nonfailing human ventricle
AU - Glukhov, Alexey V.
AU - Fedorov, Vadim V.
AU - Lou, Qing
AU - Ravikumar, Vinod K.
AU - Kalish, Paul W.
AU - Schuessler, Richard B.
AU - Moazami, Nader
AU - Efimov, Igor R.
PY - 2010/3/19
Y1 - 2010/3/19
N2 - Rationale: Transmural dispersion of repolarization has been shown to play a role in the genesis of ventricular tachycardia and fibrillation in different animal models of heart failure (HF). Heterogeneous changes of repolarization within the midmyocardial population of ventricular cells have been considered an important contributor to the HF phenotype. However, there is limited electrophysiological data from the human heart. Objective: To study electrophysiological remodeling of transmural repolarization in the failing and nonfailing human hearts. Methods and Results: We optically mapped the action potential duration (APD) in the coronary-perfused scar-free posterior-lateral left ventricular free wall wedge preparations from failing (n=5) and nonfailing (n=5) human hearts. During slow pacing (S1S1=2000 ms), in the nonfailing hearts we observed significant transmural APD gradient: subepicardial, midmyocardial, and subendocardial APD80 were 383 ±21, 455 ±20, and 494±22 ms, respectively. In 60% of nonfailing hearts (3 of 5), we found midmyocardial islands of cells that presented a distinctly long APD (537 ±40 ms) and a steep local APD gradient (27 ±7 ms/mm) compared with the neighboring myocardium. HF resulted in prolongation of APD80:477 ±22 ms, 495 ±29 ms, and 506 ±35 ms for the subepi-, mid-, and subendocardium, respectively, while reducing transmural APD80 difference from 111 ±13 to 29 ±6 ms (P<0.005) and presence of any prominent local APD gradient. In HF, immunostaining revealed a significant reduction of connexin43 expression on the subepicardium. Conclusions: We present for the first time direct experimental evidence of a transmural APD gradient in the human heart. HF results in the heterogeneous prolongation of APD, which significantly reduces the transmural and local APD gradients.
AB - Rationale: Transmural dispersion of repolarization has been shown to play a role in the genesis of ventricular tachycardia and fibrillation in different animal models of heart failure (HF). Heterogeneous changes of repolarization within the midmyocardial population of ventricular cells have been considered an important contributor to the HF phenotype. However, there is limited electrophysiological data from the human heart. Objective: To study electrophysiological remodeling of transmural repolarization in the failing and nonfailing human hearts. Methods and Results: We optically mapped the action potential duration (APD) in the coronary-perfused scar-free posterior-lateral left ventricular free wall wedge preparations from failing (n=5) and nonfailing (n=5) human hearts. During slow pacing (S1S1=2000 ms), in the nonfailing hearts we observed significant transmural APD gradient: subepicardial, midmyocardial, and subendocardial APD80 were 383 ±21, 455 ±20, and 494±22 ms, respectively. In 60% of nonfailing hearts (3 of 5), we found midmyocardial islands of cells that presented a distinctly long APD (537 ±40 ms) and a steep local APD gradient (27 ±7 ms/mm) compared with the neighboring myocardium. HF resulted in prolongation of APD80:477 ±22 ms, 495 ±29 ms, and 506 ±35 ms for the subepi-, mid-, and subendocardium, respectively, while reducing transmural APD80 difference from 111 ±13 to 29 ±6 ms (P<0.005) and presence of any prominent local APD gradient. In HF, immunostaining revealed a significant reduction of connexin43 expression on the subepicardium. Conclusions: We present for the first time direct experimental evidence of a transmural APD gradient in the human heart. HF results in the heterogeneous prolongation of APD, which significantly reduces the transmural and local APD gradients.
KW - Connexin43
KW - Heart failure
KW - Optical mapping
KW - Repolarization
KW - Transmural gradient
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U2 - 10.1161/CIRCRESAHA.109.204891
DO - 10.1161/CIRCRESAHA.109.204891
M3 - Article
C2 - 20093630
AN - SCOPUS:77950885379
SN - 0009-7330
VL - 106
SP - 981
EP - 991
JO - Circulation research
JF - Circulation research
IS - 5
ER -