Modeling and Control of a Brushless DC Axial Flow Ventricular Assist Device
- 1 May 2002
- journal article
- research article
- Published by Wolters Kluwer Health in Asaio Journal
- Vol. 48 (3) , 272-289
- https://doi.org/10.1097/00002480-200205000-00013
Abstract
This article presents an integrated model of the human circulatory system that incorporates circulatory support by a brushless DC axial flow ventricular assist device (VAD), and a feedback VAD controller designed to maintain physiologically sufficient perfusion. The developed integrated model combines a network type model of the circulatory system with a nonlinear dynamic model of the brushless DC pump. We show that maintaining a reference differential pressure between the left ventricle and aorta leads to adequate perfusion for different pathologic cases, ranging from normal heart to left heart asystole, and widely varying physical activity scenarios from rest to exercise.Keywords
This publication has 9 references indexed in Scilit:
- Sixth International Symposium for Rotary Blood PumpsArtificial Organs, 1999
- Motor Feedback Physiological Control for a Continuous Flow Ventricular Assist DeviceArtificial Organs, 1999
- Numeric Modeling of the Cardiovascular System with a Left Ventricular Assist DeviceAsaio Journal, 1999
- Development and Initial Testing of a Permanently Implantable Centrifugal PumpArtificial Organs, 1997
- System Considerations Favoring Rotary Artificial Hearts with Blood‐Immersed BearingsArtificial Organs, 1995
- Habituating control strategies for process controlAIChE Journal, 1995
- The Baroreceptor Reflex: A Biological Control System with Applications in Chemical Process ControlIndustrial & Engineering Chemistry Research, 1994
- Dynamic Systemic Vascular Resistance in a Sheep Supported with a Nimbus AxiPumpAsaio Journal, 1994
- Northwest Simulation Council meetingSIMULATION, 1966