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The Importance of Venous Return in Starling-Like Control of Rotary Ventricular Assist Devices. | LitMetric

The Importance of Venous Return in Starling-Like Control of Rotary Ventricular Assist Devices.

Artif Organs

Department of Epidemiology and Preventive Medicine, Monash University, VIC, Australia.

Published: March 2019

AI Article Synopsis

  • Rotary ventricular assist devices (VADs) struggle to regulate blood flow as effectively as a healthy heart, leading to issues in responding to changing cardiac demands.
  • Starling-like physiological controllers (SLCs) have been created to improve VAD flow regulation by using a nonlinear relationship between VAD flow and ventricular preload.
  • Experiments showed that an SLC using an angled physiological venous return line (SLC-P) performed significantly better than one with a vertical line (SLC-V), exhibiting no overshoot in flow and quicker settling times, highlighting the advantages of more adaptive controller designs.

Article Abstract

Rotary ventricular assist devices (VADs) are less sensitive to preload than the healthy heart, resulting in inadequate flow regulation in response to changes in patient cardiac demand. Starling-like physiological controllers (SLCs) have been developed to automatically regulate VAD flow based on ventricular preload. An SLC consists of a cardiac response curve (CRC) which imposes a nonlinear relationship between VAD flow and ventricular preload, and a venous return line (VRL) which determines the return path of the controller. This study investigates the importance of a physiological VRL in SLC of dual rotary blood pumps for biventricular support. Two experiments were conducted on a physical mock circulation loop (MCL); the first compared an SLC with an angled physiological VRL (SLC-P) against an SLC with a vertical VRL (SLC-V). The second experiment quantified the benefit of a dynamic VRL, represented by a series of specific VRLs, which could adapt to different circulatory states including changes in pulmonary (PVR) and systemic (SVR) vascular resistance versus a fixed physiological VRL which was calculated at rest. In both sets of experiments, the transient controller responses were evaluated through reductions in preload caused by the removal of fluid from the MCL. The SLC-P produced no overshoot or oscillations following step changes in preload, whereas SLC-V produced 0.4 L/min (12.5%) overshoot for both left and right VADs. Additionally, the SLC-V had increased settling time and reduced controller stability as evidenced by transient controller oscillations. The transient results comparing the specific and standard VRLs demonstrated that specific VRL rise times were improved by between 1.2 and 4.7 s ( = 3.05 s), while specific VRL settling times were improved by between 2.8 and 16.1 seconds ( = 8.38 s) over the standard VRL. This suggests only a minor improvement in controller response time from a dynamic VRL compared to the fixed VRL. These results indicate that the use of a fixed physiologically representative VRL is adequate over a wide variety of physiological conditions.

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Source
http://dx.doi.org/10.1111/aor.13342DOI Listing

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