Computational Methods for Fluid-Structure Interaction Simulation of Heart Valves in Patient-Specific Left Heart Anatomies

被引:15
作者
Le, Trung Bao [1 ]
Usta, Mustafa [2 ]
Aidun, Cyrus [2 ]
Yoganathan, Ajit [3 ]
Sotiropoulos, Fotis [4 ]
机构
[1] North Dakota State Univ, Dept Civil Construct & Environm Engn, Biomed Engn Program, Fargo, ND 58105 USA
[2] Georgia Inst Technol, Dept Mech Engn, Atlanta, GA 30332 USA
[3] Georgia Inst Technol, Dept Biomed Engn, Atlanta, GA 30332 USA
[4] Virginia Commonwealth Univ, Dept Mech & Nucl Engn, Richmond, VA 23284 USA
关键词
heart valves; fluid-structure interaction; data fusion; TRANSCATHETER AORTIC-VALVE; OUTFLOW BOUNDARY-CONDITIONS; LATTICE-BOLTZMANN METHOD; OF-THE-ART; MAGNETIC-RESONANCE; EMERGING TRENDS; FLOW; COMPLEX; MODEL; HEMODYNAMICS;
D O I
10.3390/fluids7030094
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
Given the complexity of human left heart anatomy and valvular structures, the fluid-structure interaction (FSI) simulation of native and prosthetic valves poses a significant challenge for numerical methods. In this review, recent numerical advancements for both fluid and structural solvers for heart valves in patient-specific left hearts are systematically considered, emphasizing the numerical treatments of blood flow and valve surfaces, which are the most critical aspects for accurate simulations. Numerical methods for hemodynamics are considered under both the continuum and discrete (particle) approaches. The numerical treatments for the structural dynamics of aortic/mitral valves and FSI coupling methods between the solid Omega(s) and fluid domain Omega(f) are also reviewed. Future work toward more advanced patient-specific simulations is also discussed, including the fusion of high-fidelity simulation within vivo measurements and physics-based digital twining based on data analytics and machine learning techniques.
引用
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页数:25
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