Right ventricular pacing-evoked left ventricular dysfunction is exaggerated by sustained left ventricular pressure overload in a rat model

Abstract

Abstract Introduction A growing body of evidence suggests that in the presence of left bundle branch block-induced electromechanical dyssynchrony, the function of the left ventricle (LV) becomes extremely sensitive to arterial afterload. However, data is scarce whether right ventricular pacing (RVP) also sensitizes the LV to alterations in afterload. Purpose Hence, in the present translational study we aimed to characterize the acute effect of RVP on LV hemodynamics under standard laboratory conditions using a rat model of chronic LV pressure overload (PO). Methods Transverse aortic constriction (TAC group) was carried out in male Wistar rats to evoke sustained LV PO for six weeks. Age- and sex-matched sham-operated animals served as controls (Sham group). LV hemodynamics was assessed in anesthetized rats by pressure-volume analysis using a pressure-conductance micro-catheter (SPR-838) introduced to the LV via the right carotid artery. To evoke RVP, the right jugular vein was cannulated and an ultra-miniature octopolar electrophysiology catheter (EPR-800) was placed into the right ventricle. Pressure-volume loops were registered in the TAC and the Sham groups during intrinsic narrow QRS rhythm (termed as TAC-Vsense and Sham-Vsense) as well as during RVP (termed as TAC-Vpace and Sham-Vpace). Results RVP was associated with impaired diastolic function (active relaxation time constant [τ]: 8.6±0.3 vs. 9.6±0.3ms, Sham-Vsense vs. Sham-Vpace and 8.0±0.3 vs. 9.6±0.4ms, TAC-Vsense vs. TAC-Vpace; P<0.001 for both comparisons) and decreased LV contractility (preload recruitable stroke work [PRSW]: 139±9 vs. 114±9mmHg, Sham-Vsense vs. Sham-Vpace and 255±23 vs. 169±17mmHg, TAC-Vsense vs. TAC-Vpace; P<0.001 for both comparisons) in both the TAC and the Sham groups. Nevertheless, the extent of RVP-evoked active relaxation prolongation (Δτ: 12±2 vs. 20±2%, Sham vs. TAC, P=0.005) and LV contractility reduction (ΔPRSW: -18±4 vs. -34±3%, Sham vs. TAC, P=0.007) was found to be more robust in rats with sustained LV PO compared to controls. Conclusion Our experimental results indicate that RVP-induced LV dysfunction is exaggerated in case of sustained LV PO.