Ward Y. Vanagt scite author profile

Background-Asynchronous electrical activation, induced by ventricular pacing, causes regional differences in workload, which is lower in early-than in late-activated regions. Because the myocardium usually adapts its mass and structure to altered workload, we investigated whether ventricular pacing leads to inhomogeneous hypertrophy and whether such adaptation, if any, affects global left ventricular (LV) pump function. Methods and Results-Eight dogs were paced at physiological heart rate for 6 months (AV sequential, AV interval 25 ms, ventricular electrode at the base of the LV free wall). Five dogs were sham operated and served as controls. Ventricular pacing increased QRS duration from 47.2Ϯ10.6 to 113Ϯ16.5 ms acutely and to 133.8Ϯ25.2 ms after 6 months. Two-dimensional echocardiographic measurements showed that LV cavity and wall volume increased significantly by 27Ϯ15% and 15Ϯ17%, respectively. The early-activated LV free wall became significantly (17Ϯ17%) thinner, whereas the late-activated septum thickened significantly (23Ϯ12%). Calculated sector volume did not change in the LV free wall but increased significantly in the septum by 39Ϯ13%. In paced animals, cardiomyocyte diameter was significantly (18Ϯ7%) larger in septum than in LV free wall, whereas myocardial collagen fraction was unchanged in both areas. LV pressure-volume analysis showed that ventricular pacing reduced LV function to a similar extent after 15 minutes and 6 months of pacing. Conclusions-Asynchronous activation induces asymmetrical hypertrophy and LV dilatation. Cardiac pump function is not affected by the adaptational processes. These data indicate that local cardiac load regulates local cardiac mass of both myocytes and collagen. (Circulation. 1998;98:588-595.)

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Infective endocarditis of a transcatheter pulmonary valve in comparison with surgical implants

Dijck

Budts

Cools

et al. 2014

Heart

170

125

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Cardiac resynchronization therapy cures dyssynchronopathy in canine left bundle-branch block hearts

Vernooy¹,

Cornelussen²,

Verbeek³

et al. 2007

European Heart Journal

134

122

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Optimization of Ventricular Function by Improving the Activation Sequence During Ventricular Pacing

Prinzen

Oosterhout

Vanagt

et al. 1998

Pacing Clinical Electrophis

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Abnormal electrical activation occurring during ventricular pacing reduces left ventricular (LV) pump function. Two strategies were compared to optimize LV function using ventricular pacing, minimal asynchrony and optimal sequence of electrical activation. ECG and hemodynamics aortic flowprobe, thermodilution cardiac output, LV pressure and its maximal rates of rise (LVdP/dtpos) and fall (LVdP/dtneg) were measured in anesthetized open-chest dogs (n = 7) with healthy hearts. The QRS duration (a measure of asynchrony of activation) was 47 +/- 5 ms during sinus rhythm and increased to 110 +/- 12 ms during DDD pacing at the right ventricular (RV) apex with a short AV interval. During pacing at the LV apex and LV base, the QRS duration was 8% +/- 7% and 15% +/- 7% (P < 0.05) longer than during RV apex pacing, respectively. Stroke volumes, LVdP/dtpos and LVdP/dtneg, however, were higher during LV apex (15% +/- 16%, 10% +/- 12% [P < 0.05], and 15% +/- 10%, respectively) and LV base pacing (11% +/- 12% [P < 0.05], 3% +/- 12%, and 3% +/- 11%, respectively) than during RV apex pacing. Systolic LV pressure was not influenced significantly by the site of pacing. Biventricular pacing (RV apex together with one or two LV sites) decreased the QRS duration by approximately 20% as compared with RV apex pacing, however, it did not improve stroke volumes, LVdP/dtpos and LVdP/dtneg beyond those during pacing at the LV apex alone. In conclusion, the sequence of electrical activation is a stronger determinant of ventricular function than the synchrony of activation. For optimal LV function the selection of an optimal single pacing site, like the LV apex, is more important than pacing from multiple sites.

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Ward Y. Vanagt

Asynchronous Electrical Activation Induces Asymmetrical Hypertrophy of the Left Ventricular Wall

Infective endocarditis of a transcatheter pulmonary valve in comparison with surgical implants

Cardiac resynchronization therapy cures dyssynchronopathy in canine left bundle-branch block hearts

Optimization of Ventricular Function by Improving the Activation Sequence During Ventricular Pacing

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