Direct access to content

advanced

Abdul Barakat's Cardiovascular and Cellular Engineering Lab

Publications

Home > Publications

A. Arterial Fluid Mechanics and Atherosclerosis


Valentin-wound healing-gel par LadHyXA15. Barakat AI. vbcxb96, 2013. PDF

A15. Barakat AI. Blood flow and arterial endothelial dysfunction: Mechanisms and implications. Comptes Rendus Physique 14: 479-496, 2013. PDF

A14. Choi HW, Barakat AI. Computational modeling of ATP/ADP concentration at the vascular surface. In: Computational Methods in Biomechanics, Springer, pp. 49-68, 2010.

A13. Choi HW, Barakat AI. Modulation of ATP/ADP concentration at the endothelial surface by flow: effect of cell topography. Annals of Biomedical Engineering 37: 2459-2468, 2009. PDF

A12. Tsou JK, Liu J, Barakat AI, Insana MF. Role of ultrasonic shear rate estimation errors in assessing inflammatory response and vascular risk. Ultrasound in Medicine & Biology 34: 963-972, 2008. PDF

A11. Choi HW, Ferrara KW, Barakat AI. Modulation of ATP/ADP concentration at the endothelial surface by shear stress: effect of flow recirculation. Annals of Biomedical Engineering 35: 505-516, 2007. PDF

A10. Tsou JK, Liu J, Barakat AI, Insana MF. Coded excitation improves vascular wall shear rate estimation. Proceedings of the 2006 IEEE Ultrasonics Symposium, pp. 1329-1332, 2006.

A9. Choi HW, Barakat AI. Numerical study of the impact of non-Newtonian blood behavior on flow over a two-dimensional backward facing step. Biorheology 42: 493-509, 2005. PDF

A8. Choi HW, Barakat AI. Modulation of ATP/ADP concentration at the endothelial surface by shear stress: effect of flow disturbance. Proceedings of the 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 5065-5068, 2004. PDF

A7. Kim, T, Seo T, Barakat AI. Numerical simulations of fluid mechanical interactions between two abdominal aortic branches. Korea-Australia Rheology Journal 16: 75-83, 2004. PDF

A6. Shahcheraghi N, Dwyer HA, Cheer AY, Barakat AI, Rutaganira T. Unsteady and three-dimensional simulation of blood flow in the human aortic arch. Journal of Biomechanical Engineering 124: 378-387, 2002. PDF

A5. John K, Barakat AI. Modulation of ATP/ADP concentration at the endothelial cell surface by shear stress: effect of flow-induced ATP release. Annals of Biomedical Engineering 29: 740-751, 2001. PDF

A4. Cheer AY, Dwyer HA, Barakat AI, Sy E, Bice M. Computational study of the effect of geometric and flow parameters on the steady flow field at the rabbit aorto-celiac bifurcation. Biorheology 35: 415-435, 1998.

A3. Barakat AI, Karino T, Colton CK. Microcinematographic studies of the flow field in the excised rabbit aorta. Biorheology 34: 195-221, 1997. PDF

A2. Barakat AI, Marini RP, Colton CK. Measurement of flow rates through aortic branches in the rabbit in vivo. Laboratory Animal Science 47: 184-189, 1997. PDF

A1. Barakat AI, Uhthoff PAF, Colton CK. Topographical mapping of sites of enhanced HRP permeability in the normal rabbit aorta. Journal of Biomechanical Engineering 114: 283-292, 1992. PDF