Clinical Recovery From End-Stage Heart Failure Using Left-Ventricular Assist Device and Pharmacological Therapy Correlates With Increased Sarcoplasmic Reticulum Calcium Content but Not With Regression of Cellular Hypertrophy

Terracciano, Cesare M.; Hardy, J; Birks, Emma J.; Khaghani, Asghar; Banner, Nicholas R.; Yacoub, Magdi H.

doi:10.1161/01.cir.0000129233.51320.92

Cited by 144 publications

(98 citation statements)

References 19 publications

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“…[1][2][3] This normalization of diastolic properties results from a regression of myocyte hypertrophy, including reduced LV mass, wall thickness, and myocyte diameter. 4,5 In addition, LVAD support has been associated with a trend toward normalization in cardiomyocyte function, 6 calcium cycling properties, 7 and expression of various genes. 8 In addition to changes in intrinsic myocardial properties, LVAD use is associated with changes in the characteristics and metabolism of the extracellular matrix (ECM).…”

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confidence: 99%

Mechanical Unloading During Left Ventricular Assist Device Support Increases Left Ventricular Collagen Cross-Linking and Myocardial Stiffness

et al. 2005

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Background-Left ventricular assist devices (LVADs) induce reverse remodeling of the failing heart except for the extracellular matrix, which exhibits additional pathophysiological changes, although their mechanisms and functional consequences are unknown. Methods and Results-Hearts were obtained at transplant from patients with idiopathic dilated cardiomyopathy (DCM) not requiring LVAD support (nϭ30), patients requiring LVAD support (nϭ16; LVAD duration, 145Ϯ33 days), and 5 nonfailing hearts. Left (LV) and right ventricular (RV) ex vivo pressure-volume relationships were measured, and chamber and myocardial stiffness constants were determined. Myocardial tissue content of total and cross-linked collagen, collagen types I and III, MMP-1, MMP-9, TIMP-1, and angiotensin (Ang) I and II were measured. LV size, mass, and myocyte diameter decreased after LVAD compared with DCM without LVAD (PϽ0.05). Total and cross-linked collagen and ratio of type I to III collagen increased in DCM compared with nonfailing hearts and increased further after LVAD (PϽ0.05 versus DCM and nonfailing). Concomitantly, chamber and myocardial stiffness increased with LVAD. The ratio of MMP-1 to TIMP-1 increased in DCM and almost normalized after LVAD, favoring decreased collagen degradation. Tissue Ang I and II also increased during LVAD. There was no significant change in the RV of LVAD-supported heart compared with DCM. Conclusions-LVAD support increases LV collagen cross-linking and the ratio of collagen type I to III, which is associated with increased myocardial stiffness. Decreased tissue MMP-1-to-TIMP-1 ratio (decreased degradation) and increased Ang levels (stimulants of synthesis) are likely mechanisms for these changes. Lack of significant effects on the RV suggest that hemodynamic unloading of the LV (not provided to the RV) might be the primary factor that regulates these extracellular matrix changes. (Circulation. 2005;112:364-374.)Key Words: cardiomyopathy Ⅲ collagen Ⅲ heart-assist devices Ⅲ heart failure Ⅲ metalloproteinases L eft ventricular assist devices (LVADs) provide mechanical support for the end-stage failing human heart and have been used as a bridge to cardiac transplantation. We have demonstrated that LVAD support is associated with normalization of diastolic chamber properties as indexed by the passive pressure-volume relation. [1][2][3] This normalization of diastolic properties results from a regression of myocyte hypertrophy, including reduced LV mass, wall thickness, and myocyte diameter. 4,5 In addition, LVAD support has been associated with a trend toward normalization in cardiomyocyte function, 6 calcium cycling properties, 7 and expression of various genes. 8 In addition to changes in intrinsic myocardial properties, LVAD use is associated with changes in the characteristics and metabolism of the extracellular matrix (ECM). However, unlike almost all other aspects of reverse remodeling of the myocardium and ventricular chamber, the ECM changes do not uniformly reflect a return toward normal conditions. 9 -11...

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confidence: 99%

Mechanical Unloading During Left Ventricular Assist Device Support Increases Left Ventricular Collagen Cross-Linking and Myocardial Stiffness

et al. 2005

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“…Terracciano and co-workers have demonstrated that clinical recovery from terminal CHF after pharmacological and mechanical support is associated with modifications in excitation-contraction coupling, and sarcoplasmatic Ca 2+ homeostasis in particular, and not with a reduction of cardiomyocyte cell size. These findings underscore the importance of Ca 2+ cycling in CHF and its treatment [53].…”

Section: Ca 2+ Homeostasismentioning

confidence: 55%

Morphological and molecular changes of the myocardium after left ventricular mechanical support

Baba

Wohlschlaeger

2008

Journal of Molecular and Cellular Cardiology

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“…In studies on transplanted human hearts, previous ␤-blockade restored the RyR function, phosphorylation, and levels of the binding proteins toward reference, with improved myocardial compliance and response to isoproterenol. 16 These studies do not explain why the ARB valsartan can restore the function of the ryanodine receptor and normalize the calcium leak from the SR without improving resting cardiac function. 17 The abnormalities of intracellular cardiac calcium kinetics in heart failure could equally well lie in defective uptake of calcium into the SR by the sarcoplasmic-endoplasmic reticulum calciumuptake pump (SERCA) and, more specifically, the cardiac isoform SERCA2a.…”

Section: Hyperadrenergic Signaling In Heart Failurementioning

confidence: 93%

Cellular Basis for Therapeutic Choices in Heart Failure

Opie

2004

Circulation

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Clinical Recovery From End-Stage Heart Failure Using Left-Ventricular Assist Device and Pharmacological Therapy Correlates With Increased Sarcoplasmic Reticulum Calcium Content but Not With Regression of Cellular Hypertrophy

Cited by 144 publications

References 19 publications

Mechanical Unloading During Left Ventricular Assist Device Support Increases Left Ventricular Collagen Cross-Linking and Myocardial Stiffness

Mechanical Unloading During Left Ventricular Assist Device Support Increases Left Ventricular Collagen Cross-Linking and Myocardial Stiffness

Morphological and molecular changes of the myocardium after left ventricular mechanical support

Cellular Basis for Therapeutic Choices in Heart Failure

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