Early right ventricular fibrosis and reduction in biventricular cardiac reserve in the dystrophin-deficient mdx heart

Meyers, Tatyana A.; Townsend, DeWayne

doi:10.1152/ajpheart.00485.2014

Cited by 35 publications

(58 citation statements)

References 74 publications

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“…Furthermore, these mice have significant reductions in cardiac function (Lu and Hoey 2000; Quinlan et al. 2004; Meyers and Townsend 2015) and significant reductions in respiratory function (Farkas et al. 2007; Ishizaki et al.…”

Section: Introductionmentioning

confidence: 99%

Diastolic dysfunction precedes hypoxia-induced mortality in dystrophic mice

Townsend

2015

Physiol Rep

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Duchenne muscular dystrophy (DMD) is a progressive striated muscle disease that is characterized by skeletal muscle weakness with progressive respiratory and cardiac failure. Together respiratory and cardiac disease account for the majority of mortality in the DMD patient population. However, little is known regarding the effects of respiratory dysfunction on the dystrophic heart. The studies described here examine the effects of acute hypoxia on cardiac function. These studies demonstrate, for the first time, that a mouse model of DMD displays significant mortality following acute exposure to hypoxia. This mortality is characterized by a steady decline in systolic function. Retrospective analysis reveals that significant decreases in diastolic dysfunction, especially in the right ventricle, precede the decline in systolic pressure. The initial hemodynamic response to acute hypoxia in the mouse is similar to that observed in larger species, with significant increases in right ventricular afterload and decreases in left ventricular preload being observed. Significant increases in heart rate and contractility suggest hypoxia-induced activation of the sympathetic nervous system. These studies provide evidence that while hypoxia presents significant hemodynamic challenges to the dystrophic right ventricle, global cardiac dysfunction precedes hypoxia-induced mortality in the dystrophic heart. These findings are clinically relevant as the respiratory insufficiency evident in patients with DMD results in significant bouts of hypoxia. The results of these studies indicate that hypoxia may contribute to the acceleration of the heart disease in DMD patients. Importantly, hypoxia can be avoided through the use of ventilatory support.

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Section: Introductionmentioning

confidence: 99%

Diastolic dysfunction precedes hypoxia-induced mortality in dystrophic mice

Townsend

2015

Physiol Rep

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“…The group average of the slope was significantly smaller (p = 0.004, Student's t-test) in the mdx RV (20.3 ± 28.4°/mm) than in the BL6 RV (67.9 ± 12.6°/mm). The severe structural remodeling observed in the RV of the 7-month-old mdx mouse is most likely caused by the diaphragm degeneration related pulmonary dysfunction [17,18]. Deterioration of the respiratory function increases pulmonary vascular resistance which then leads to increased RV stress [17].…”

Section: Resultsmentioning

confidence: 99%

“…The severe structural remodeling observed in the RV of the 7-month-old mdx mouse is most likely caused by the diaphragm degeneration related pulmonary dysfunction [17,18]. Deterioration of the respiratory function increases pulmonary vascular resistance which then leads to increased RV stress [17]. This process eventually results in tissue damage in the RV [17,18].…”

Section: Resultsmentioning

confidence: 99%

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Heart structural remodeling in a mouse model of Duchenne cardiomyopathy revealed using optical polarization tractography [Invited]

Wang

Zhang

Duan

et al. 2017

Biomed. Opt. Express

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Abstract:We investigated the heart structural remodeling in the mdx4cv mouse model of Duchenne cardiomyopathy using optical polarization tractography. Whole heart tractography was obtained in freshly dissected hearts from six mdx4cv mice. Six hearts from C57BL/6J mice were also imaged as the normal control. The mdx4cv hearts were significantly larger than the control hearts and had significantly higher between-subject variations in myofiber organization. While both strains showed classic cross-helical fiber organization in the left ventricle, the rate of the myocardial fiber orientation change across the heart wall was significantly altered in the right ventricle of the mdx4cv heart.

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“…They also demonstrated a trend toward a decrease with age for LVEF at rest (p = 0.051) but not for RVEF (p = 0.8). A recent study by Meyers et al using a novel biventricular cardiac catheterization technique coupled with cardiac stress testing reported that in dystrophin deficient mdx mice the RV was particularly affected by cardiac fibrosis [22]. Although unstimulated cardiac function was relatively normal, there were significant reductions in RV and LV systolic and diastolic function in response to dobutamine.…”

Section: Discussionmentioning

confidence: 99%