BACKGROUND: Sustained left ventricular (LV) dyssynchrony can lead to heart failure (HF) in the absence of coronary artery stenosis. We tested whether myocardial hibernation underlies the LV functional impairment caused by high-frequency pacing, an established model of nonischemic dilated cardiomyopathy. METHODS AND RESULTS: Regional LV contractile and perfusion reserve were assessed by magnetic resonance imaging, respectively, as end-systolic wall thickening (LVESWT) and myocardial perfusion reserve index (MPRI) at rest and during low-dose dobutamine stress (LDDS, 10 microg.kg.min intravenously for 10minutes) in failing minipigs (n=8). LV tissue was analyzed for glycogen deposits and other molecular hallmarks of hibernation. LDDS caused a marked increase in LVESWT (27+/-2.98 vs. 7.15+/-3 %, P < .05) and MPRI (2.1+/-0.5 vs. 1.3+/-0.3 P < .05) in the region that was activated first (pacing site) compared with the opposite region. Myocardial glycogen content was markedly increased in the pacing site (P < .05 vs. opposite region). In addition, gene expression of glycogen phosphorylase was reduced in pacing site compared with opposite regions (0.71+/-0.1 vs. 1.03+/-0.3, P < .05), whereas that of hexokinase type II was globally reduced by 83%. CONCLUSIONS: The combination of high heart rate and sustained dyssynchronous LV contraction causes asymmetrical myocardial hibernation, in absence of coronary artery stenosis.

Severe mechanical dyssynchrony causes regional hibernation-like changes in pigs with nonischemic heart failure.

LIONETTI, Vincenzo;SIMIONIUC, Anca;BERNINI, FABIO;RECCHIA, FABIO ANASTASIO;
2009-01-01

Abstract

BACKGROUND: Sustained left ventricular (LV) dyssynchrony can lead to heart failure (HF) in the absence of coronary artery stenosis. We tested whether myocardial hibernation underlies the LV functional impairment caused by high-frequency pacing, an established model of nonischemic dilated cardiomyopathy. METHODS AND RESULTS: Regional LV contractile and perfusion reserve were assessed by magnetic resonance imaging, respectively, as end-systolic wall thickening (LVESWT) and myocardial perfusion reserve index (MPRI) at rest and during low-dose dobutamine stress (LDDS, 10 microg.kg.min intravenously for 10minutes) in failing minipigs (n=8). LV tissue was analyzed for glycogen deposits and other molecular hallmarks of hibernation. LDDS caused a marked increase in LVESWT (27+/-2.98 vs. 7.15+/-3 %, P < .05) and MPRI (2.1+/-0.5 vs. 1.3+/-0.3 P < .05) in the region that was activated first (pacing site) compared with the opposite region. Myocardial glycogen content was markedly increased in the pacing site (P < .05 vs. opposite region). In addition, gene expression of glycogen phosphorylase was reduced in pacing site compared with opposite regions (0.71+/-0.1 vs. 1.03+/-0.3, P < .05), whereas that of hexokinase type II was globally reduced by 83%. CONCLUSIONS: The combination of high heart rate and sustained dyssynchronous LV contraction causes asymmetrical myocardial hibernation, in absence of coronary artery stenosis.
2009
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11382/302717
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