A Computational Investigation of the Effects of Temporal Synchronization of Left Ventricular Assist Device Speed Modulation with the Cardiac Cycle on Intraventricular Hemodynamics

被引:4
作者
Straccia, Angela [1 ]
Chassagne, Fanette [2 ]
Barbour, Michael C. [1 ]
Beckman, Jennifer [3 ]
Li, Song [4 ]
Mahr, Claudius [4 ]
Aliseda, Alberto [1 ]
机构
[1] Univ Washington, Dept Mech Engn, Seattle, WA 98195 USA
[2] Mines St Etienne, INSERM U1059 Sainboise, St Etienne, France
[3] Univ Washington, Div Cardiol, Seattle, WA USA
[4] Med City Healthcare, Inst Adv Cardiac Care, Dallas, TX USA
基金
美国国家科学基金会;
关键词
Heart failure; Left ventricular assist device; Hemodynamics; Computational fluid dynamics; Thrombosis; CONTINUOUS-FLOW; LAVARE CYCLE; HEARTMATE; 3; INFLOW CANNULA; TASK-FORCE; FOLLOW-UP; ASSOCIATION; SYSTEM; IMPACT; ACTIVATION;
D O I
10.1007/s10439-024-03489-x
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Patients with advanced heart failure are implanted with a left ventricular assist device (LVAD) as a bridge-to-transplantation or destination therapy. Despite advances in pump design, the risk of stroke remains high. LVAD implantation significantly alters intraventricular hemodynamics, where regions of stagnation or elevated shear stresses promote thrombus formation. Third generation pumps incorporate a pulsatility mode that modulates rotational speed of the pump to enhance in-pump washout. We investigated how the timing of the pulsatility mode with the cardiac cycle affects intraventricular hemodynamic factors linked to thrombus formation. Computational fluid dynamics simulations with Lagrangian particle tracking to model platelet behavior in a patient-specific left ventricle captured altered intraventricular hemodynamics due to LVAD implantation. HeartMate 3 incorporates a pulsatility mode that modulates the speed of the pump every two seconds. Four different timings of this pulsatility mode with respect to the cardiac cycle were investigated. A strong jet formed between the mitral valve and inflow cannula. Blood stagnated in the left ventricular outflow tract beneath a closed aortic valve, in the near-wall regions off-axis of the jet, and in a large counterrotating vortex near the anterior wall. Computational results showed good agreement with particle image velocimetry results. Synchronization of the pulsatility mode with peak systole decreased stasis, reflected in the intraventricular washout of virtual contrast and Lagrangian particles over time. Temporal synchronization of HeartMate 3 pulsatility with the cardiac cycle reduces intraventricular stasis and could be beneficial for decreasing thrombogenicity.
引用
收藏
页码:1763 / 1778
页数:16
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