Optimization of flow rate and orientation of outflow graft at implantation for patients with left ventricular assist device.

Q3 Medicine

中南大学学报(医学版) Pub Date : 2025-03-28 DOI:10.11817/j.issn.1672-7347.2025.240244

Yongyi Wang, Li Shi, Shijun Hu, Xiao Tan, Tianli Zhao

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引用次数: 0

Abstract

Objectives: A ventricular assist device (VAD) is an electromechanical device used to assist cardiac blood circulation, which can be employed for the treatment of end-stage heart failure and is most commonly placed in the left ventricle. Despite enhancing perfusion performance, the implantation of left ventricular assist device (LVAD) transforms the local intraventricular flow and thus may increase the risk of thrombogenesis. This study aims to investigate fluid-particle interactions and thromboembolic risk under different LVAD configurations using three-dimensional (3D) reconstruction models, focusing on the effects of outflow tract orientation and blood flow rates.

Methods: A patient-specific end-diastolic 3D reconstruction model was initially constructed in stereo lithography (STL) format using Mimics software based on CT images. Transient numerical simulations were performed to analyze fluid-particle interactions and thromboembolic risks for LVAD with varying outflow tract orientations under 2 flow rates (4 L/min and 5 L/min), using particles of uniform size (2 mm), and a blood flow rate optimization protocol was implemented for this patient.

Results: When the LVAD flow rate was 5 L/min, helicity and flow stagnation of the blood flow increased the particle residence time (RT) and the risk of thrombogenesis of the aortic root. The percentage of particles traveling toward the brachiocephalic trunk was up to 20.33%. When the LVAD flow rate was 4 L/min, blood turbulence in the aorta was reduced, the RT of blood particles was shortened, and then the percentage of particles traveling toward the brachiocephalic trunk decreased to 10.54%. When the LVAD blood flow rate was 5 L/min and the direction of the outflow pipe was optimal, the RT of blood particles was shortened, and then the percentage of particles traveling toward the brachiocephalic trunk decreased to 11.22%. A 18-month follow-up observation of the patient revealed that the LVAD was in good working order and the patient had no complications related to the implantation of LVAD.

Conclusions: Implantation of LVAD results in a higher risk of cerebral infarction; When implanting LVAD with the same outflow tract direction, optimizing flow velocity and outflow tract can reduce the risk of cerebral infarction occurrence.

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左室辅助装置植入时流出型移植物流速及方向的优化。

目的：心室辅助装置（ventricular assist device， VAD）是一种用于辅助心脏血液循环的机电装置，可用于治疗终末期心力衰竭，最常放置在左心室。尽管增强了灌注性能，但植入左心室辅助装置（LVAD）改变了局部心室内血流，因此可能增加血栓形成的风险。本研究旨在通过三维（3D）重建模型研究不同LVAD配置下的流体-颗粒相互作用和血栓栓塞风险，重点研究流出道方向和血流速率的影响。方法：以CT图像为基础，采用Mimics软件，以立体光刻（STL）格式初步构建患者特异性舒张末期三维重建模型。采用均匀粒径（2mm）的颗粒，进行瞬时数值模拟，分析两种流量（4l /min和5l /min）下不同流出道方向LVAD的流体-颗粒相互作用和血栓栓塞风险，并对该患者实施血流速率优化方案。结果：当LVAD血流速率为5 L/min时，血流的螺旋度和血流停滞增加了颗粒停留时间（RT），增加了主动脉根部血栓形成的风险。颗粒向头臂干方向运动的比例高达20.33%。当LVAD流速为4 L/min时，主动脉内的血液湍流减少，血液颗粒的RT缩短，颗粒向头臂干移动的百分比下降到10.54%。当LVAD血流速率为5 L/min且流出管方向最佳时，血液颗粒的RT缩短，颗粒向头臂干方向运动的百分比下降至11.22%。患者随访18个月，LVAD工作状态良好，无LVAD植入相关并发症。结论：LVAD植入增加了脑梗死的发生风险；在相同流出道方向植入LVAD时，优化血流速度和流出道可降低脑梗死发生的风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

中南大学学报(医学版) Medicine-Medicine (all)

CiteScore

1.00

自引率

0.00%

发文量

8237

期刊介绍： Journal of Central South University (Medical Sciences), founded in 1958, is a comprehensive academic journal of medicine and health sponsored by the Ministry of Education and Central South University. The journal has been included in many important databases and authoritative abstract journals at home and abroad, such as the American Medline, Pubmed and its Index Medicus (IM), the Netherlands Medical Abstracts (EM), the American Chemical Abstracts (CA), the WHO Western Pacific Region Medical Index (WPRIM), and the Chinese Science Citation Database (Core Database) (CSCD); it is a statistical source journal of Chinese scientific and technological papers, a Chinese core journal, and a "double-effect" journal of the Chinese Journal Matrix; it is the "2nd, 3rd, and 4th China University Excellent Science and Technology Journal", "2008 China Excellent Science and Technology Journal", "RCCSE China Authoritative Academic Journal (A+)" and Hunan Province's "Top Ten Science and Technology Journals". The purpose of the journal is to reflect the new achievements, new technologies, and new experiences in medical research, medical treatment, and teaching, report new medical trends at home and abroad, promote academic exchanges, improve academic standards, and promote scientific and technological progress.