Neural control of ventricular electrophysiology: the role of the posterior descending ganglionated plexus

Abstract

Abstract Background The autonomic nervous system plays an integral role in cardiac physiology. While the atrially located ganglionated plexus have been studied in several species, there is limited knowledge regarding the functional characterization of ventricular ganglionated plexus. Purpose The aim of the present study was to assess the role of the posterior descending ganglionated plexus (PD-GP) for neural control of ventricular electrophysiology. Methods First, to investigate whether the mouse may be useful as an animal model, a review of whole-mount immunohistological stained murine hearts (n=43) was conducted. Second, functional studies were performed in an ex-vivo retrograde-perfused porcine model (n=3) at baseline (pacing with a cycle length of 600 ms), during PD-GP high-frequency and local nicotine stimulation (Figure 1A). Wave propagation characteristics were determined by epicardial activation mapping. Activation recovery intervals (ARIs) were analyzed with a multi-electrode sock placed around the epicardium (Figure 1B). Finally, morphological analysis of explanted human hearts was conducted to determine the potential of translation into clinical practice. Results In murine hearts, ventricular ganglionated plexus were present in only 10% of hearts. In porcine hearts, dispersion of conduction velocity was increased during PD-GP high-frequency (8.52±2.24 radian vs. 2.79±0.89 radian; p=0.018) and nicotine stimulation (19.79±6.49 radian vs. 2.79±0.89 radian; p=0.044) compared to paced rhythm (Figure 1C). High-frequency stimulation prolonged ARIs in the posterior (257.8±6.7 ms vs. 244.8±1.9 ms; p=0.044) and basal (258.1±4.2 ms vs. 244.8±1.9 ms; p=0.039) right ventricle compared to the posterior left ventricle, while nicotine did not affect ARIs (right ventricle: 255.7±29.0 ms vs. left ventricle: 245.0±29.3 ms; p=0.677) (Figure 1D). Analysis of explanted human hearts confirmed the presence of the PD-GP in close relationship to the posterior descending coronary artery within epicardial adipose tissue (Figure 2). Conclusions While we demonstrate functional relevance of the PD-GP in explanted porcine hearts, important species-related differences might exist.Ex-vivo retrograde-perfused swine modelAnalysis of explanted human hearts