A Novel Method for Evaluation of Right Ventricular Performance during Left Ventricular Assist Device Implantation

Abstract

Left ventricular assist devices (LVAD) are utilized in patients diagnosed with advanced heart failure. Right ventricular (RV) failure can affect up to 20% of patients undergoing LVAD implantation. In this case study, we evaluated perioperative RV performance with simultaneous use of Swan-Ganz catheterization and high-fidelity conductance catheters to generate real time RV pressure- volume (PV) loops. A 75- year old male patient undergoing LVAD implantation was chosen for evaluation. A high-fidelity conductance catheter was advanced into the RV. The catheter was removed on postoperative day one. Data obtained from the catheter were used to evaluate RV work, contractility, diastolic function, and compliance. These results were compared to standard measurements of the patient's clinical status and biventricular performance. Consent and IRB approval was obtained as part of an ongoing study. The patient developed RV dysfunction in the immediate perioperative period, as demonstrated by increasing central venous pressure to pulmonary artery pressure ratio, decreased cardiac index, and evidence of elevated filling pressures by echocardiogram. Using a high-fidelity catheter, we demonstrated a uniform reduction in preload recruitable stroke work and Starling contractile index on postoperative day one. Pressure-volume loops initially demonstrated appropriate ventricular unloading, however RV dysfunction was exposed with changes in loading conditions over time (figure 1). Pressure-volume loop analysis represents a novel method for evaluation of RV performance during LVAD implantation. Compared to standard monitoring, PV loops provide increased granularity in understanding RV function.