Maximum ventricular elastance, E MAX , is a reliable quantitative index representing the contractial status of a patient's heart. However evaluating E MAX usually requires invasive pressure and flow sensors, which only can be performed under certain clinical facility. If an indirect index of E MAX can be identified from the measurements of a ventricular assist device (VAD) without any indwelling sensor, this would facilitate an effective way to monitor the healthy condition of the patient's heart while the patients are under VAD support. This index can also be used to determine the control strategy of VAD operation and gradually wean the patient from the mechanical circulatory support.In this paper, two possible indices, pump flow pulsatility and arterial pulse pressure, were evaluated as alternative representations of E MAX using data from a computer simulation model of cardiovascular system with a HeartMat II left ventricular assist system (LVAS). Pump flow pulsatility showed a strong correlation to E MAX regardless of pump speed changes, and thus can be used as an index for E MAX .