How to transform a fixed stroke alternating syringe ventricle into an adjustable elastance ventricle

Abstract: Most devices used for bench simulation of the cardiovascular system are based either on a syringe-like alternating pump or an elastic chamber inside a fluid-filled rigid box. In these devices, it is very difficult to control the ventricular elastance and simulate pathologies related to the mechanical mismatch between the ventricle and arterial load (i.e., heart failure). This work presents a possible solution to transforming a syringe-like pump with a fixed ventricle into a ventricle with variable elastance. O… Show more

“…In parallel to additional in vitro evaluations using a recently developed cardiac mock system with a good physiological behavior [ 29 ], we are working on the development of reliable in silico simulations reproducing the IVI measurements for different models of HVPs, different electrode size, geometry and positioning, and different working conditions for the valve leaflets. These additional studies and experiments will help to further improve the final design of our sensorized HVP.…”

A Novel Sensorized Heart Valve Prosthesis: Preliminary In Vitro Evaluation

“…In parallel to additional in vitro evaluations using a recently developed cardiac mock system with a good physiological behavior [ 29 ], we are working on the development of reliable in silico simulations reproducing the IVI measurements for different models of HVPs, different electrode size, geometry and positioning, and different working conditions for the valve leaflets. These additional studies and experiments will help to further improve the final design of our sensorized HVP.…”

A Novel Sensorized Heart Valve Prosthesis: Preliminary In Vitro Evaluation

Wireless Endocardial Atrial (and Ventricular) Sensing with no Implanted Power Source: a Proposal

Technologies for Hemodynamic Measurements: Past, Present and Future