Interaction of a Ventricular Assist Device With Patient-Specific Cardiovascular Systems: In-Silico Study With Bidirectional Coupling

Hahne, Mario; Crone, Vincenz; Thomas, Inga; Wolfgramm, Calvin; Liedtke, Frieder Kurt Peter; Wurm, Frank-Hendrik; Torner, Benjamin

doi:10.1097/mat.0000000000002181

ASAIO Journal

2024

DOI: 10.1097/mat.0000000000002181

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Interaction of a Ventricular Assist Device With Patient-Specific Cardiovascular Systems: In-Silico Study With Bidirectional Coupling

Mario Hahne,

Vincenz Crone,

Inga Thomas

et al.

Abstract: Ventricular assist devices (VADs) are used to assist the heart function of patients with advanced heart failure. Computational fluid dynamics in VADs are widely applied in the development and optimization, for example, to evaluate blood damage. For these simulations, the pulsating operating conditions, in which the VAD operates, should be included accurately. Therefore, this study aims to evaluate the flow in a VAD by interacting with patient-specific cardiovascular systems of heart failure patients. A numeric… Show more

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Will blood-informed design signal the fourth generation of cardiac assist devices?

Simmonds,

Thamsen,

Olia

et al. 2024

The Journal of Heart and Lung Transplantation

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Will blood-informed design signal the fourth generation of cardiac assist devices?

Simmonds,

Thamsen,

Olia

et al. 2024

The Journal of Heart and Lung Transplantation

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Dynamic VAD simulations: Performing accurate simulations of ventricular assist devices in interaction with the cardiovascular system

Crone,

Hahne,

Knüppel

et al. 2024

Int J Artif Organs

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Medical advancements, particularly in ventricular assist devices (VADs), have notably advanced heart failure (HF) treatment, improving patient outcomes. However, challenges such as adverse events (strokes, bleeding and thrombosis) persist. Computational fluid dynamics (CFD) simulations are instrumental in understanding VAD flow dynamics and the associated flow-induced adverse events resulting from non-physiological flow conditions in the VAD. This study aims to validate critical CFD simulation parameters for accurate VAD simulations interacting with the cardiovascular system, building upon the groundwork laid by Hahne et al. A bidirectional coupling technique was used to model dynamic (pulsatile) flow conditions of the VAD CFD interacting with the cardiovascular system. Mesh size, time steps and simulation method (URANS, LES) were systematically varied to evaluate their impact on the dynamic pump performance (dynamic [Formula: see text] curve) of the HeartMate 3, aiming to find the optimal simulation configuration for accurately reproduce the dynamic [Formula: see text] curve. The new Overlapping Ratio (OR) method was developed and applied to quantify dynamic [Formula: see text] curves. In particular, mesh and time step sizes were found to have the greatest influence on the calculated pump performance. Therefore, small time steps and large mesh sizes are recommended to obtain accurate dynamic [Formula: see text] curves. On the other hand, the influence of the simulation method was not significant in this study. This study contributes to advancing VAD simulations, ultimately enhancing clinical efficacy and patient outcomes.

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Interaction of a Ventricular Assist Device With Patient-Specific Cardiovascular Systems: In-Silico Study With Bidirectional Coupling

Cited by 2 publications

References 32 publications

Will blood-informed design signal the fourth generation of cardiac assist devices?

Will blood-informed design signal the fourth generation of cardiac assist devices?

Dynamic VAD simulations: Performing accurate simulations of ventricular assist devices in interaction with the cardiovascular system

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