Computational modeling of the Food and Drug Administration’s benchmark centrifugal blood pump

Effect of blade curvature on the hemolytic and hydraulic characteristics of a centrifugal blood pump

(2018) Caglar Ozturk et al.   INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS

Normal fluid stresses are prevalent in rotary ventricular assist devices: A computational fluid dynamics analysis

(2018) Dominica PY Khoo et al.   INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS

Mesh Sensitivity Analysis for Quantitative Shear Stress Assessment in Blood Pumps Using Computational Fluid Dynamics

(2018) Sascha Gross-Hardt et al.   JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME

Inter-Laboratory Characterization of the Velocity Field in the FDA Blood Pump Model Using Particle Image Velocimetry (PIV)

(2018) Prasanna Hariharan et al.   Cardiovascular Engineering and Technology

A fully coupled OpenFOAM® solver for transient incompressible turbulent flows in ALE formulation

(2017) L. Mangani et al.   NUMERICAL HEAT TRANSFER PART B-FUNDAMENTALS

Shear-Induced Hemolysis: Species Differences

(2015) Jun Ding et al.   ARTIFICIAL ORGANS

Numerical Analysis of Blood Damage Potential of the HeartMate II and HeartWare HVAD Rotary Blood Pumps

(2015) Bente Thamsen et al.   ARTIFICIAL ORGANS

Continuous and Pulsatile Pediatric Ventricular Assist Device Hemodynamics with a Viscoelastic Blood Model

(2015) Bryan C. Good et al.   Cardiovascular Engineering and Technology

FDA’s Nozzle Numerical Simulation Challenge: Non-Newtonian Fluid Effects and Blood Damage

(2014) Miquel Trias et al.   PLoS One

Transient stress-based and strain-based hemolysis estimation in a simplified blood pump

(2013) Lutz Pauli et al.   International Journal for Numerical Methods in Biomedical Engineering

Results of FDA’s First Interlaboratory Computational Study of a Nozzle with a Sudden Contraction and Conical Diffuser

(2013) Sandy F. C. Stewart et al.   Cardiovascular Engineering and Technology

Computational Fluid Dynamics Analysis to Determine Shear Stresses and Rates in a Centrifugal Left Ventricular Assist Device

(2012) Brian Paul Selgrade et al.   ARTIFICIAL ORGANS

Blood Trauma Testing of CentriMag and RotaFlow Centrifugal Flow Devices: A Pilot Study

(2012) Michael A. Sobieski et al.   ARTIFICIAL ORGANS

Evaluation of Eulerian and Lagrangian Models for Hemolysis Estimation

(2012) M. Ertan Taskin et al.   ASAIO JOURNAL

A Quantitative Comparison of Mechanical Blood Damage Parameters in Rotary Ventricular Assist Devices: Shear Stress, Exposure Time and Hemolysis Index

(2012) Katharine H. Fraser et al.   JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME

Assessment of CFD Performance in Simulations of an Idealized Medical Device: Results of FDA’s First Computational Interlaboratory Study

(2012) Sandy F. C. Stewart et al.   Cardiovascular Engineering and Technology

Multilaboratory Particle Image Velocimetry Analysis of the FDA Benchmark Nozzle Model to Support Validation of Computational Fluid Dynamics Simulations

(2011) Matthew Giarra   JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME

Hemolysis in Different Centrifugal Pumps

(2010) Koji Kawahito et al.   ARTIFICIAL ORGANS

Computational Characterization of Flow and Hemolytic Performance of the UltraMag Blood Pump for Circulatory Support

(2010) M. Ertan Taskin et al.   ARTIFICIAL ORGANS

Viscoelastic flow analysis using the software OpenFOAM and differential constitutive equations

(2010) J.L. Favero et al.   JOURNAL OF NON-NEWTONIAN FLUID MECHANICS

Hemocompatibility Evaluation With Experimental and Computational Fluid Dynamic Analyses for a Monopivot Circulatory Assist Pump

(2009) Masahiro Nishida et al.   ARTIFICIAL ORGANS

Effects of non-Newtonian fluid on centrifugal blood pump performance

(2008) Genguang Zhang et al.   INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER