Physiologic control of rotary blood pumps by ventricular chamber size estimation using resonantly coupled sensors
Wang Y, Ghali G, Luo X, Bonde P, Giridharan G. Physiologic control of rotary blood pumps by ventricular chamber size estimation using resonantly coupled sensors. Biomedical Signal Processing And Control 2025, 110: 108135. DOI: 10.1016/j.bspc.2025.108135.Peer-Reviewed Original ResearchRotary blood pumpsControl algorithmConstant pump speedEnd-diastolic volumePump speedVentricular suctionBlood pumpPhysiological control algorithmCirculatory system modelLeft ventricular end-diastolic volumeMeasurement noiseVentricular end-diastolic volumePulmonary vascular resistanceFixed pump speedHigh-efficiency sensorsLong-term driftVentricular chamber sizeProposed algorithmSensorSystem modelVascular resistanceSpeedPump-independentAlgorithmSuction
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply