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使用心血管系统计算模型,通过TORVAD保留天然主动脉瓣血流并提供完全的血流动力学支持。

Preservation of native aortic valve flow and full hemodynamic support with the TORVAD using a computational model of the cardiovascular system.

作者信息

Gohean Jeffrey R, George Mitchell J, Chang Kay-Won, Larson Erik R, Pate Thomas D, Kurusz Mark, Longoria Raul G, Smalling Richard W

机构信息

From the *Windmill Cardiovascular Systems, Austin, Texas; †Division of Cardiovascular Medicine, University of Texas Medical School at Houston and the Memorial Hermann Heart and Vascular Institute, Houston, Texas; and ‡Department of Mechanical Engineering, University of Texas at Austin, Austin, Texas.

出版信息

ASAIO J. 2015 May-Jun;61(3):259-65. doi: 10.1097/MAT.0000000000000190.

DOI:10.1097/MAT.0000000000000190
PMID:25485562
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4414727/
Abstract

This article describes the stroke volume selection and operational design for the toroidal ventricular assist device (TORVAD), a synchronous, positive-displacement ventricular assist device (VAD). A lumped parameter model was used to simulate hemodynamics with the TORVAD compared with those under continuous-flow VAD support. Results from the simulation demonstrated that a TORVAD with a 30 ml stroke volume ejecting with an early diastolic counterpulse provides comparable systemic support to the HeartMate II (HMII) (cardiac output 5.7 L/min up from 3.1 L/min in simulated heart failure). By taking the advantage of synchronous pulsatility, the TORVAD delivers full hemodynamic support with nearly half the VAD flow rate (2.7 L/min compared with 5.3 L/min for the HMII) by allowing the left ventricle to eject during systole and thus preserving native aortic valve flow (3.0 L/min compared with 0.4 L/min for the HMII, down from 3.1 L/min at baseline). The TORVAD also preserves pulse pressure (26.7 mm Hg compared with 12.8 mm Hg for the HMII, down from 29.1 mm Hg at baseline). Preservation of aortic valve flow with synchronous pulsatile support could reduce the high incidence of aortic insufficiency and valve cusp fusion reported in patients supported with continuous-flow VADs.

摘要

本文介绍了环形心室辅助装置(TORVAD)的每搏输出量选择和操作设计,TORVAD是一种同步正排量心室辅助装置(VAD)。采用集总参数模型模拟了TORVAD与持续流VAD支持下的血流动力学情况。模拟结果表明,每搏输出量为30 ml且在舒张早期进行反搏的TORVAD能提供与HeartMate II(HMII)相当的全身支持(心输出量从模拟心力衰竭时的3.1 L/min增至5.7 L/min)。通过利用同步搏动性,TORVAD在左心室收缩期允许其射血,从而保留天然主动脉瓣血流(HMII为0.4 L/min,TORVAD为3.0 L/min,基线时为3.1 L/min),以几乎一半的VAD流速(HMII为5.3 L/min,TORVAD为2.7 L/min)提供充分的血流动力学支持。TORVAD还能保留脉压(HMII为12.8 mmHg,TORVAD为26.7 mmHg,基线时为29.1 mmHg)。同步搏动性支持下保留主动脉瓣血流可降低持续流VAD支持患者中报道的主动脉瓣关闭不全和瓣叶融合的高发生率。

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