摘要
Coronary artery disease is a devastating complication of some patients undergoing liver transplantation.Anesthesia,anhepatic blood flow occlusion,and reperfusion of the liver can cause severe fluctuations in hemodynamics.However,the vast majority of liver transplant patients cannot undergo invasive coronary examinations due to their critical illness and abnormal coagulation function.In this paper,we present a retrospective case of acute myocardial infarction during surgery in order to demonstrate a noninvasive method to obtain coronary hemodynamic functional information based on scalable computational fluid dynamics technology.A P1P1 stabilized finite element method and second-order backward differentiation formula are applied to discretize the time-dependent Navier-Stokes equations in the spatial and temporal directions,respectively.A Windkessel model constructed based on the measured clinic data is used to characterize the outlet blood flow.We then apply a parallel Newton-Krylov method with a restricted additive Schwarz preconditioner to accelerate the timeliness of the simulation.The simulated functional indicator successfully verifies the myocardial ischemia in the anhepatic phase of liver transplantation.We also present the parallel performance of the algorithm on a supercomputer,and the results show that the proposed solver achieves over 55%parallel efficiency with 3840 processor cores.
基金
the National Key R&D Program of China(No.2018YFE0198400)
NSFC(Nos.11901559 and 12071461)
Shenzhen Fund(No.RCYX20200714114735074).
