Analytical interpretation of hemodynamic data in patients with intracardiac shunts: role of mathematical modeling

71/2025

Analytical interpretation of hemodynamic data in patients with intracardiac shunts: role of mathematical modeling

Thursday 27th November 2025

Paolo, F.; Tonini, A.; Valenti, G.; Hoxha, S.; Bassareo, P.P.; Dede', L.; Quarteroni, A.; Dimopoulos, K.

Introduction Shunt lesions are categorized into pre- and post-tricuspid. Although it is well recognized that these two entities have a different pathophysiology, hemodynamic variables involved are still poorly understood. This paper aims to analytically appraise shunt physiology exploiting a lumped parameters mathematical model. Methods Circulatory system was split into arterial and venous compartments, each of them being described by resistive, capacitive and inductive components. The model was modified including a communication between atria and ventricles. Predicted changes in the ratio between pulmonary blood flow and systemic blood flow (Qp/Qs), obtained by manipulating pulmonary resistances (PVR) and ventricular stiffness were computed. Results A twofold rise of pulmonary vascular resistance resulted in a significant reduction of Qp/Qs in the setting of isolated ventricular septal defect (VSD) and VSD associated with atrial septal defect (ASD) but did not produced a sizable effect in case of isolated ASD. In the model describing an isolated ASD, a similar magnitude of Qp/Qs reduction was predicted by simulating an increase of right ventricular passive elastance and relaxation time. In this type of shunt, the dependance of Qp/Qs from PVR and ventricular elastance appeared analytically linked. Conclusions According to this model, shunt through an ASD is minimally affected by PVRs. The marginal change of pulmonary flow produced by large variations of PVR appeared mediated by changes in right ventricular elastance. According to the model the effect of pulmonary vasodilators in patients with ASD can be concealed or enhanced by increased stiffness of the right or left ventricle, respectively.