BACKGROUND: Duchenne muscular dystrophy (DMD) is a progressive muscle disease caused by mutations in the dystrophin gene. Cardiomyopathy, conduction abnormalities, and ventricular arrhythmias are significant complications of this disease. The mdx ( 5cv ) mouse carries a dystrophin mutation and demonstrates a more severe phenotype than the classic mdx mouse. METHODS: Comprehensive electrophysiological phenotyping was performed in adult mdx ( 5cv ) and wildtype mice, including electrocardiography (ECG), implantable Holter monitoring, intracardiac electrophysiological testing, echocardiography, and exercise treadmill testing. RESULTS: ECG performed in mdx ( 5cv ) mice revealed significantly shorter PR intervals and prominent R waves in surface lead V1. During electrophysiological testing, mdx ( 5cv ) mice exhibited longer ventricle effective refractory periods and mildly increased ventricular tachycardia inducibility. There was no evidence for cardiomyopathy or ventricular dysfunction on echocardiography. Histopathology showed no increased myocardial fibrosis. Exercise endurance was lower in mdx ( 5cv ) mice without arrhythmias or other cardiac abnormalities. CONCLUSION: Taken together at the age range examined, mdx ( 5cv ) mice exhibit discrete cardiac electrophysiological dysfunction but display no evidence of structural or contractile abnormalities. Thus, the mdx ( 5cv ) mouse recapitulates some of the electrophysiological, but not hemodynamic cardiac defects present in human DMD. In certain settings, the mdx ( 5cv ) mouse may be an appropriate subject for studying electrical pathophysiology and therapy of the cardiac complications of DMD.
BACKGROUND:Duchenne muscular dystrophy (DMD) is a progressive muscle disease caused by mutations in the dystrophin gene. Cardiomyopathy, conduction abnormalities, and ventricular arrhythmias are significant complications of this disease. The mdx ( 5cv ) mouse carries a dystrophin mutation and demonstrates a more severe phenotype than the classic mdx mouse. METHODS: Comprehensive electrophysiological phenotyping was performed in adult mdx ( 5cv ) and wildtype mice, including electrocardiography (ECG), implantable Holter monitoring, intracardiac electrophysiological testing, echocardiography, and exercise treadmill testing. RESULTS: ECG performed in mdx ( 5cv ) mice revealed significantly shorter PR intervals and prominent R waves in surface lead V1. During electrophysiological testing, mdx ( 5cv ) mice exhibited longer ventricle effective refractory periods and mildly increased ventricular tachycardia inducibility. There was no evidence for cardiomyopathy or ventricular dysfunction on echocardiography. Histopathology showed no increased myocardial fibrosis. Exercise endurance was lower in mdx ( 5cv ) mice without arrhythmias or other cardiac abnormalities. CONCLUSION: Taken together at the age range examined, mdx ( 5cv ) mice exhibit discrete cardiac electrophysiological dysfunction but display no evidence of structural or contractile abnormalities. Thus, the mdx ( 5cv ) mouse recapitulates some of the electrophysiological, but not hemodynamic cardiac defects present in humanDMD. In certain settings, the mdx ( 5cv ) mouse may be an appropriate subject for studying electrical pathophysiology and therapy of the cardiac complications of DMD.
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