Volume 17 (2023)
Volume 16 (2022)
Volume 15 (2021)
Volume 14 (2020)
Volume 13 (2019)
Volume 12 (2018)
Volume 11 (2017)
Volume 10 (2016)
Volume 9 (2015)
Volume 8 (2014)
Volume 7 (2013)
Volume 6 (2012)
Volume 5 (2011)
Volume 4 (2010)
Volume 3 (2009)
Volume 2 (2008)
Volume 1 (2007)
Volume -2 (2005)
Volume -1 (2004)
Fluid-Structure Interaction in Biological Media / FSI
Numerical investigation of the effects of wall flexibility on the infiltration parameters of a symmetric carotid artery stenosis with a two-layer hyperelastic structure

Saeed Nahidi; Alireza Hossein-Nezhad; Nasser Fatouraee; Zahra Heidari

Volume 7, Issue 2 , June 2013, , Pages 107-120

Abstract
  Blood flow parameters are affected by position and shape of the accumulation of low density lipoprotein (LDL) in the layers of the arterial wall, and this phenomenon itself is influenced by infiltration flow of the blood. In this paper, in order to investigate the effect of wall flexibility on the infiltration ...  Read More

Cardiovascular Biomechanics
Determination Of Elastic Modulus Of Artery Wall By Modeling Of Artery Wall And Blood Flow

Mehdi Maerefat; Asghar Khoushkar Shalmani; Manije Mokhtari Dizaji

Volume 1, Issue 2 , June 2007, , Pages 95-104

Abstract
  Modeling of blood flow and arterial wall in large arteries such as carotid artery, using ultrasonic measurements, allows non-invasive evaluation of clinically interesting homodynamic variables. In this study, a nonlinear mathematical model for the pulsatile arterial flow is proposed using the approximation ...  Read More

Cardiovascular Biomechanics
Simulation Of Blood Flow In The Sac-Type Ventricular Assist Device Using Computational Fluid Dynamic

Faramarz Firouzi; Nasser Fatouraee; Siamak Najarian

Volume -1, Issue 2 , June 2005, , Pages 129-142

Abstract
  Nowadays in the industrial world, because of increase of heart transplantation demand, long-term ventricular assist devices (VAD) are more needed. Implantable sac-type is one of the newest of them producing pulsatile flow. In this research, three different models of sac-type VAD are numerically simulated. ...  Read More