Non-Newtonian Patient-specific Numerical Study of Left Atrial Hemodynamic

Alejandro Gonzalo; Manuel Garcia-Villalba; Lorenzo Rossini; Eduardo Duran; Davis Vigneault; Pablo Martinez-Legazpi; Oscar Flores; Javier Bermejo; Elliot McVeigh; Andrew M Kahn; Juan Carlos del Alamo

Non-Newtonian Patient-specific Numerical Study of Left Atrial Hemodynamic

ORAL

Abstract

Ischemic strokes due to cardiac thromboembolism are a leading cause of mortality in patients with atrial fibrillation (AF). During AF, disturbed atrial beating creates stagnant regions where clots can form, typically in the left atrial appendage (LAA). Blood has non-Newtonian rheology due to red blood cell aggregate (rouleaux) formation. Aggregation requires residence times of 1–10 s at shear rates <100 s^-1. These conditions are met in the LAA and, consonantly, rouleaux are observed clinically as spontaneous echocardiographic contrast. Yet, previous CFD studies consider Newtonian rheology. We explore how non-Newtonian rheology affects LA flow in 6 patient-specific anatomies from 4D-CT imaging (3 in sinus rhythm, 3 in AF). We implement a semi-implicit Carreau-Yasuda model incorporating hematocrit (Hct), shear, and residence time to account for rouleaux formation. We consider a wide range of Hct values (37-55) and compare vs. Newtonian simulations on the same patients. We found that non-Newtonian effects can significantly affect LAA blood viscosity even at low Hct, altering hemodynamics LAA stasis predictions by CFD.

Nov. 21, 2021, 5:24 PM – Nov. 21, 2021, 5:37 PM

Publication: https://www.biorxiv.org/content/10.1101/2021.06.24.449801v3

Presenters

Alejandro Gonzalo

UC San Diego & University of Washington, University of California San Diego

Authors

Alejandro Gonzalo

UC San Diego & University of Washington, University of California San Diego
Manuel Garcia-Villalba

Univ Carlos III De Madrid, Univ. Carlos III de Madrid
Lorenzo Rossini

University of California San Diego
Eduardo Duran

Univ Carlos III De Madrid, Univ. Carlos III de Madrid
Davis Vigneault

UC San Diego, Department of Radiology, Stanford University, Stanford, CA, 94305, USA
Pablo Martinez-Legazpi

Universidad Nacional de Educación a Distancia, Gregorio Marañon Hospital, Spain, Dpt. Física Matemática y Fluidos. UNED
Oscar Flores

Univ. Carlos III De Madrid, Univ Carlos III De Madrid, Univ. Carlos III de Madrid
Javier Bermejo

Hospital G.U. Gregorio Marañón, Gregorio Marañon Hospital, Spain, Hospital General Universitario Gregorio Marañon, Hospital General Universitario Gregorio Marañón, Hospital Gregorio Maranon, Madrid, Spain
Elliot McVeigh

UC San Diego, University of California San Diego
Andrew M Kahn

University of California San Diego, UC San Diego, University of California, San Diego
Juan Carlos del Alamo

University of Washington; University of California San Diego, UC San Diego & University of Washington, University of Washington, University of Washington & University of California, San Diego