Download PDF Biofluid Mechanics in Cardiovascular Systems (Biomedical Engineering Series)

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Her research interests include biomedical imaging, image processing and analysis, imaging models and phantoms, and posture analysis.

Fundamentals of Biomedical Transport Processes | Synthesis Lectures on Biomedical Engineering

His research interests include cardiovascular engineering, biofluid dynamics, and rehabilitation engineering. Her research interests include food and biomaterial processing, nanotechnology, and bioactive delivery. He obtained his Doctor of Engineering from the University of Federal Armed Forces, Germany, and has published more than articles in the area of biomedical engineering, computer science, electronics and medicine. JavaScript is currently disabled, this site works much better if you enable JavaScript in your browser. Engineering Biomedical Engineering. Series in BioEngineering Free Preview.

Includes recent findings, reviews, and advances in cardiac engineering Highlights the use of biomaterials and 3D printing for tissue-engineered heart valves Presents a unique combination of engineering and clinical approaches to solve cardiovascular problems see more benefits. Buy eBook. Buy Hardcover. FAQ Policy.

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Elmariah, M. Leon, E. Ventricular stroke work and vascular impedance refine the characterization of patients with aortic stenosis.

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Science Translational Medicine. Keshavarz-Motamed , F. Rikhtegar Nezami, R. Partida, K.

Technological Advancements, Reviews, and Applications

Nakamura, P. Staziaki, E. Ben-Assa, B. Ghoshhajra, A. Bhatt, E. Elimination of trans-coarctation pressure gradients has no impact on left ventricular function or aortic shear stress post intervention in patients with mild coarctation. Di Labbio, Z. Keshavarz-Motamed , L. Numerical simulation of flows in a circular pipe transversely subjected to a localized impulsive body force with applications to blunt traumatic aortic rupture.

Fluid Dynamics Research. Keshavarz-Motamed , E. Edelman, P. Motamed, J. Garcia, N.


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Dahdah, L. The role of aortic compliance in determination of coarctation severity: lumped parameter modeling, in vitro study and clinical evaluation. Journal of Biomechanics.

Biofluid Mechanics in Cardiovascular Systems McGraw Hills Biomedical Engineering

Benevento, A. Dejebbari, Z. Keshavarz-Motamed , R. Cecere, L. Flow distribution in aortic valve bypass: a mathematical modeling approach. PLoS One. Garcia, E. Gaillard, R. Capoulade, F. LeVen, G. Cloutier, L. Kadem, P. Non-invasive determination of left ventricular workload in patients with aortic stenosis using magnetic resonance imaging and Doppler echocardiography. Keshavarz-Motamed , Y. Saijo, Y. Majdouline, J. Ohayon, G. Coronary artery atherectomy stabilizes plaque shear strains: an endovascular elastography imaging study.

Gaillard, N. Maftoon, G. Di Labbio, G. Effect of coarctation of the aorta and bicuspid aortic valve on flow dynamics and turbulence in the aorta using particle image velocimetry. Experiments in Fluids. Ohayon, Z. Keshavarz-Motamed , M.

Roy Cardinal, D. Garcia, L. Allard, S. Lerouge, F. Arsenault, G. Soulez, G. Endovascular shear strain elastography for detection and characterization the severity of atherosclerotic plaques: in vitro validation and in vivo evaluation.

Fluid dynamics of coarctation of the aorta and effect of bicuspid aortic valve. Maftoon, E. Bedard, P.