Biofluid Mechanics Research Laboratory
Post-doctoral Research Fellow, Department of Biomedical Engineering
- Cardiovascular Engineering
- Numerical simulation of blood flow and fluid-structure interaction (FSI) in arteries and ventricles
- Experimental flow measurements, and in particular Particle Image Velocimetry (PIV) technique
- Continuum mechanics, non-Newtonian and higher order fluid mechanics, and tensor-based analyses and calculations
Ph.D. (Mechanical Engineering), Nanyang Technological University
M.Sc. (Biomedical Engineering), Iran University of Science and Technology
B.Eng. (Mechanical Engineering), Amirkabir University of Technology
F. Kabinejadian, F. Cui, B. Su, A. Danpinid, P. Ho, and H.L. Leo. “Effects of a Carotid Covered Stent with a Novel Membrane Design on the Blood Flow Regime and Hemodynamic Parameters Distribution at the Carotid Artery Bifurcation”, Medical & Biological Engineering & Computing 53(2), pp. 165-177, 2015.
F. Kabinejadian, D.N. Ghista, B. Su, M. Kaabi Nezhadian, L.P. Chua, J.H. Yeo, H.L. Leo. “In Vitro Measurements of Velocity and Wall Shear Stress in a Novel Sequential Anastomotic Graft Design Model under Pulsatile Flow Conditions”, Medical Engineering & Physics 36(10), pp. 1233-1245, 2014.
F. Kabinejadian, F. Cui, Z. Zhang, P. Ho, and H.L. Leo. “A Novel Carotid Covered Stent Design: In Vitro Evaluation of Performance and Influence on the Blood Flow Regime at the Carotid Artery Bifurcation”, Annals of Biomedical Engineering 41 (9), pp. 1990-2002, 2013.
F. Kabinejadian and D.N. Ghista. “Compliant Model of a Coupled Sequential Coronary Arterial Bypass Graft: Effects of Vessel Wall Elasticity and Non-Newtonian Rheology on Blood Flow Regime and Hemodynamic Parameters Distribution”, Medical Engineering & Physics 34, pp. 860-872, 2012.
F. Kabinejadian, L.P. Chua, D.N. Ghista, M. Sankaranarayanan, and Y.S. Tan. “A Novel Coronary Artery Bypass Graft Design of Sequential Anastomoses”, Annals of Biomedical Engineering 38 (10), pp. 3135-3150, 2010.
F. Kabinejadian, L.P. Chua, D.N. Ghista, and Y.S. Tan. “CABG Models Flow Simulation Study on the Effects of Valve Remnants in the Venous Graft”, Journal of Mechanics in Medicine and Biology 10, pp. 593-609, 2010.
Research Associate, Department of Biomedical Engineering
- Medical device design, particular in delivery system for minimally invasive procedures
- Experimental testing of mechanical and biomechanical properties
- Tissue Mechanics
M.Sc. (Biomedical Engineering), University of Connecticut
M.Eng. (Technology Management), University of South Australia
B.Sc. (Mechanical Engineering), Hunan University