Effects of increased pericardial pressure on the coupling between the ventricles

Abstract

Study objective – The mechanical coupling between the ventricles occurs directly through the myocardium (ventricular-ventricular coupling) and indirectly through the pericardium (ventricular-pericardial-ventricular coupling). We postulated that the magnitude of ventricular-pericardial-ventricular coupling would increase at high pericardial pressures, while ventricular-ventricular coupling would be unaltered. Design – Canine hearts were removed and placed in cold cardioplegic solution. Balloons were inserted into each ventricle and the left and right ventricular pressure (dP₁, dP_r) and volume (dV₁, dV_r) changes caused by increasing the pressure and volume of the other ventricle and by increasing pericardial pressure (dP_p) were measured. Experimental materials – Hearts from 10 random source dogs, weight 12.5-18 kg, were used. Measurement and main results – At control pericardial pressure levels, the magnitude of the pericardial ventricular interactions was greater than the ventricular-ventricular interactions: dP₁/dP_p, was significantly greater than dP₁/dP_r, at 0.71 (SEM 0.04), n = 6, v 0.18(0.03), pl/dP_p, was significantly greater than dV_l/dP_r, at −0.83(0.09) v −0.24(0.06), pl/dP_r∼, dV_l/dP_r∼, dP_r/dP_l∼, and dV_r/dP_l∼ increased significantly (pl/dP_r increased, from 0.51(0.03) to 0.79(0.01), p0.5. Conclusions – Ventricular interdependence was increased with raised pericardial pressure and this increased coupling was due primarily to an increased ventricular-pericardial-ventricular coupling. This increased coupling may help to explain the paradoxical pulse observed in cardiac tamponade.