Right ventricular remodeling in restrictive ventricular septal defect

Abstract Restrictive ventricular septal defect (rVSD) presents with little/no hemodynamic aberrations despite a patent septal defect. Clinically, these patients are observed with the hope that the defect will functionally close over time without the need for surgical repair and development of heart...

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Bibliographic Details
Published in:Journal of molecular and cellular cardiology 2010-10, Vol.49 (4), p.699-706
Main Authors: Monreal, Gretel, Youtz, Dane J, Phillips, Alistair B, Eyman, Mahala E, Gorr, Matthew W, Velten, Christina, Lucchesi, Pamela A, Wold, Loren E, Gerhardt, Mark A
Format: Article
Language:English
Subjects:
Animals
Blotting, Western
Cardiovascular
Congenital
Cytoskeleton
Desmin
Diastolic dysfunction
Echocardiography
Electrophoresis, Polyacrylamide Gel
Heart Septal Defects, Ventricular - physiopathology
Hemodynamics - physiology
Myocardium - metabolism
Remodeling
Swine
Ventricular Dysfunction, Right - physiopathology
Ventricular Remodeling - physiology
Ventricular septal defect
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Summary:Abstract Restrictive ventricular septal defect (rVSD) presents with little/no hemodynamic aberrations despite a patent septal defect. Clinically, these patients are observed with the hope that the defect will functionally close over time without the need for surgical repair and development of heart failure. Without evidence supporting a definitive therapeutic strategy, rVSD patients may have increased risk of a poor outcome. We tested the hypothesis that rVSD results in subclinical RV diastolic dysfunction and molecular remodeling. Five pigs underwent surgical rVSD creation. Echocardiography, hemodynamics, myocyte contractility experiments, and proteomics/Western blot were performed 6-weeks post-rVSD and in controls. * p < 0.05. LV and RV hemodynamics in rVSD were comparable to controls. The tricuspid valve early/late diastolic inflow velocity ratio (TV E/A ratio) decreased from 1.6 ± 0.05 in controls to 1.0 ± 0.08* in rVSD, indicating RV diastolic dysfunction. rVSD RV myocytes showed abnormalities in contraction (departure velocity (Vd) − 51%*, Vd time + 55%*) and relaxation (return velocity (Vr) − 50%*, Vr time + 62%*). Mitochondrial proteins (fatty acid, TCA cycle) increased 2-fold*, indicating heightened RV work. Desmin protein upregulated 285%* in rVSD RV myocardium, suggesting cytoskeletal remodeling. rVSD causes RV diastolic dysfunction, myocyte functional impairment, and mitochondrial/cytoskeletal protein upregulation in our model. Desmin upregulation may hinder sarcomeric organization/relaxation, representing a key subclinical early marker for future RV dysfunction. TV E/A measurements are a non-invasive modality to assess rVSD patients for diastolic dysfunction. Translational research applications may lead to fundamental changes in the clinical management of rVSD by providing evidence for early repair of the defect.
ISSN:0022-2828
1095-8584
DOI:10.1016/j.yjmcc.2010.07.005