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New articles related to this author's research. Email address for updates. Effect of spiral flow on the transport of oxygen in the aorta: a numerical study. Annals of biomedical engineering 38 , — Qiu, Y. Numerical simulation of oxygen mass transfer in a compliant curved tube model of a coronary artery. Annals of biomedical engineering 28 , 26—38 Tada, S. Numerical study of oxygen transport in a carotid bifurcation.
Noordergraaf, A. The use of an analog computer in a circulation model. Progress in Cardiovascular Diseases 5 , — Westerhof, N. Analog studies of the human systemic arterial tree. Journal of Biomechanics 2 , — Lacourse, J. Simulations of arterial pressure pulses using a transmission line model. Journal of Biomechanics 19 , — Liang, F. Hemodynamic performance of the Fontan circulation compared with a normal biventricular circulation: a computational model study.
Patient-specific assessment of cardiovascular function by combination of clinical data and computational model with applications to patients undergoing Fontan operation. Closed-loop real-time simulation model of hemodynamics and oxygen transport in the cardiovascular system. Biomedical Engineering Online 12 , 1—20 Yao, W.
Chinese Journal of Biomedical Engineering 27 , 50—55 Schneiderman, G. Mass transport to walls of stenosed arteries: variation with Reynolds number and blood flow separation. J Biomech 12 , — Landes, G. Horsten, J. Linear propagation of pulsatile waves in viscoelastic tubes. Journal of Biomechanics 22 , — Raines, J. A computer simulation of arterial dynamics in the human leg. Journal of Biomechanics 7 , 77—91 Patankar, S. Numerical heat transfer and fluid flow.
Fannjiang, A. Convection enhanced diffusion for periodic flows. Convection-enhanced diffusion for random flows. Journal of Statistical Physics 88 , — Cussler, E. Diffusion: mass transfer in fluid systems. Ramachandran, P. Jim Douglas, J. Siam Journal on Numerical Analysis 19 , — Deen, W. Wilkinson, D. Mass transport in solids and fluids.
Popel, A. Theory of oxygen transport to tissue. Critical reviews in biomedical engineering 17 , — Meier, P. On the theory of the indicator-dilution method for measurement of blood flow and volume. Journal of applied physiology 6 , — Roberts, G. The interpretation of mean transit time measurements for multiphase tissue systems.
Commentary: using the convection—dispersion model and transit time density functions in the analysis of organ distribution kinetics. Journal of pharmaceutical sciences 89 , — Zierler, K. Equations for measuring blood flow by external monitoring of radioisotopes. Circulation Research 16 , — Oxygen mass transport in a compliant carotid bifurcation model. Annals of biomedical engineering 34 , — Back, L.
Analysis of oxygen transport from pulsatile, viscous blood flow to diseased coronary arteries of man. Journal of biomechanics 10 , — Tarbell, J. Mass transport in arteries and the localization of atherosclerosis.
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Annual review of biomedical engineering 5 , 79— Wentzel, J. Relationship between neointimal thickness and shear stress after Wallstent implantation in human coronary arteries. Circulation , — Ma, P. Convective mass transfer at the carotid bifurcation.bpppbanyuwangi.com/cache/map12.php
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Journal of Biomechanics 30 , — Guo, X. Distribution of stress and strain along the porcine aorta and coronary arterial tree. Huo, Y. Stein, T. Steady-state oxygen transport through red blood cell suspensions.
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Journal of applied physiology 31 , — Pulse wave propagation in the arterial tree. Annual Review of Fluid Mechanics 43 , — Boileau, E. A benchmark study of numerical schemes for one-dimensional arterial blood flow modelling. Reymond, P. Validation of a one-dimensional model of the systemic arterial tree. Santilli, S.
yzuteloqor.ml | Oxygen Transport to Tissue XV | | Boeken
Transarterial wall oxygen gradients at the dog carotid bifurcation. H Richardson, R. Age-dependent changes in oxygen tension, radiation dose and sensitivity within normal and diseased coronary arteries-Part B: modeling oxygen diffusion into vessel walls. Circulatory system dynamics. Xiao, N. Journal of Computational Physics , 22—40 Randles, A. Massively parallel simulations of hemodynamics in the primary large arteries of the human vasculature. Journal of Computational Science 9 , 70—75 Landis, C. Determination of the MRI contrast agent concentration time course in vivo following bolus injection: Effect of equilibrium transcytolemmal water exchange.
Magnetic Resonance in Medicine 44 , — Bernardino, M. Safety and optimum concentration of a manganese chloride-based oral MR contrast agent. Imaging 4 , — Calamante, F. Contrast agent concentration measurements affecting quantification of bolus-tracking perfusion MRI. Magnetic Resonance in Medicine 58 , — Ross, R. Rous-Whipple Award Lecture. Atherosclerosis: a defense mechanism gone awry. American Journal of Pathology , — Langer, R. Drug delivery and targeting.
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Nature , 5—10 Liu, S. The present volume summarizes the proceedings of the 24th Annual Meeting of the International Society on Oxygen Transport to Tissue August , , Dundee, Scotland and compares favourably with previous ones of the same series. Recent advancements in research on the systemic and local mechanisms of regulation of transport and utilization are reported. Sections of the book deal with specific organs, such as heart, lung, skeletal muscle and brain. A section on the effects of fluorocarbons on transport and utilization is also included.
Related Oxygen Transport to Tissue XIX
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