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J. Am. Coll. Cardiol. · Oct 2014
Multicenter StudyMyocardial atrophy and chronic mechanical unloading of the failing human heart: implications for cardiac assist device-induced myocardial recovery.
- Nikolaos A Diakos, Craig H Selzman, Frank B Sachse, Josef Stehlik, Abdallah G Kfoury, Omar Wever-Pinzon, Anna Catino, Rami Alharethi, Bruce B Reid, Dylan V Miller, Mohamed Salama, Alexey V Zaitsev, Junko Shibayama, Hui Li, James C Fang, Dean Y Li, and Stavros G Drakos.
- Utah Transplantation Affiliated Hospitals (UTAH) Cardiac Transplant Program: Divisions of Cardiovascular Medicine and Cardiothoracic Surgery, University of Utah Health Sciences Center, Intermountain Medical Center, Veterans Administration Salt Lake City Health Care System, Salt Lake City, Utah; University of Utah Molecular Medicine Program, Salt Lake City, Utah.
- J. Am. Coll. Cardiol. 2014 Oct 14; 64 (15): 1602-12.
BackgroundIn animal models of heterotopic transplantation, mechanical unloading of the normal, nonhypertrophic heart results in atrophy. Primarily on the basis of these animal data, the notion that chronic left ventricular assist device (LVAD)-induced unloading will result in atrophy has dominated the clinical heart failure field, and anti-atrophic drugs have been used to enhance the cardiac recovery potential observed in some LVAD patients. However, whether unloading-induced atrophy in experimental normal heart models applies to failing and hypertrophic myocardium in heart failure patients unloaded by continuous-flow LVADs has not been studied.ObjectivesThe study examined whether mechanical unloading by continuous-flow LVAD leads to myocardial atrophy.MethodsWe prospectively examined myocardial tissue and hemodynamic and echocardiographic data from 44 LVAD patients and 18 untransplanted normal donors.ResultsCardiomyocyte size (cross-sectional area) decreased after LVAD unloading from 1,238 ± 81 μm(2) to 1,011 ± 68 μm(2) (p = 0.001), but not beyond that of normal donor hearts (682 ± 56 μm(2)). Electron microscopy ultrastructural evaluation, cardiomyocyte glycogen content, and echocardiographic assessment of myocardial mass and left ventricular function also did not suggest myocardial atrophy. Consistent with these findings, t-tubule morphology, cytoplasmic penetration, and distance from the ryanodine receptor were not indicative of ongoing atrophic remodeling during LVAD unloading. Molecular analysis revealed no up-regulation of proatrophic genes and proteins of the ubiquitin proteasome system.ConclusionsStructural, ultrastructural, microstructural, metabolic, molecular, and clinical functional data indicated that prolonged continuous-flow LVAD unloading does not induce hypertrophy regression to the point of atrophy and degeneration. These findings may be useful in designing future investigations that combine LVAD unloading and pharmaceutical therapies as a bridge to recovery of the failing heart.Copyright © 2014 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.
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