Predictive changes in ventricular interdependence.

Based on the balance of forces across the interventricular septum, we developed a theoretical analysis to explain how one ventricle can directly influence the filling characteristics of the other ventricle. The analysis indicated that the pressure and volume transfer were related to the relative compliances of the interventricular septum and ventricular free walls. The present study examined whether the theoretical analysis could be used to predict changes in ventricular interdependence caused by altering regional compliance. To examine this hypothesis, hearts were removed from 18 dogs and placed in cool cardioplegic solution. Balloons were inserted into each ventricle, and the left and right pressure (delta P1, delta Pr) and volume (delta V1, delta Vr) changes caused by changing the pressure and volume of the other ventricle were recorded. After the initial measurements, acute changes in left ventricular free wall compliance (n = 6), septal compliance (n = 6), and right ventricular free wall compliance (n = 6) were induced by glutaraldehyde injections. As predicted by the theoretical analysis, decreasing left ventricular free wall compliance increased delta P1/delta Pr, delta P1/delta Vr, delta Pr/delta V1, and delta Vr/delta V1 significantly (P less than 0.05) by 89 +/- 15, 155 +/- 33, 282 +/- 65, and 112 +/- 22% (mean +/- SEM), respectively. Decreasing septal compliance decreases delta P1/delta Pr, delta V1/delta Pr, delta V1/delta Vr, delta Pr/delta P1, delta Vr/delta P1, and delta Vr/delta V1 significantly (P less than 0.05) by 48 +/- 7, 71 +/- 10, 69 +/- 14, 48 +/- 7, 62 +/- 8, and 57 +/- 13%, respectively. Decreasing right ventricular free wall compliance increased delta P1/delta Vr, delta V1/delta Vr, delta Pr/delta P1, and delta Pr/delta V1 significantly (P less than 0.05) by 97 +/- 25, 79 +/- 20, 57 +/- 18, and 59 +/- 23%, respectively. Furthermore, these alterations in ventricular coupling were predictable: The actual and predicted percentage changes in the transfer functions were in close agreement. The results of these studies show predictable alterations in the mechanical coupling between the ventricles following changes in right ventricular, septal, and left ventricular free wall compliances.