Search Results - "PRIES, A"

Microvascular blood viscosity in vivo and the endothelial surface layer by Pries, A R, Secomb, T W

“…The apparent viscosity of blood in glass tubes declines with decreasing diameter (Fåhraeus-Lindqvist effect) and exhibits a distinctive minimum at 6-7 microm…”
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Intussusceptive angiogenesis: pillars against the blood flow by Styp-Rekowska, B., Hlushchuk, R., Pries, A. R., Djonov, V.

“…Adaptation of vascular networks to functional demands needs vessel growth, vessel regression and vascular remodelling. Biomechanical forces resulting from…”
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Microcirculation in hypertension : A new target for treatment? by LEVY, B. I, AMBROSIO, G, PRIES, A. R, STRUIJKER-BOUDIER, H. A. J

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The endothelial surface layer by Pries, A R, Secomb, T W, Gaehtgens, P

“…The endothelial lining of blood vessels presents a large surface area for exchange of materials between blood and tissues, and is critically involved in many…”
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Biophysical aspects of blood flow in the microvasculature by Pries, A R, Secomb, T W, Gaehtgens, P

“…The main function of the microvasculature is transport of materials. Water and solutes are carried by blood through the microvessels and exchanged, through…”
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Structural adaptation of microvascular networks: functional roles of adaptive responses by Pries, A R, Reglin, B, Secomb, T W

“…Terminal vascular beds continually adapt to changing demands. A theoretical model is used to simulate structural diameter changes in response to hemodynamic…”
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Physiological basis of the microcirculation: vascular adaptation by Pries, A R

“…The microcirculation is the functional "business end" of the cardiovascular system. In vessels with diameters below about 300 µm processes including the…”
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The hematocrit paradox--how does blood doping really work? by Böning, D, Maassen, N, Pries, A

“…The wide-spread assumption that doping with erythropoietin or blood transfusion is only effective by increasing arterial blood O2 content because of rising…”
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Control of blood vessel structure: insights from theoretical models by Pries, A R, Secomb, T W

“…Blood vessels are capable of continuous structural adaptation in response to changing local conditions and functional requirements. Theoretical modeling…”
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Structural adaptation and stability of microvascular networks: theory and simulations by Pries, A R, Secomb, T W, Gaehtgens, P

“…A theoretical model was developed to simulate long-term changes of vessel diameters during structural adaptation of microvascular networks in response to…”
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Motion of red blood cells in a capillary with an endothelial surface layer: effect of flow velocity by Secomb, T W, Hsu, R, Pries, A R

“…Interior surfaces of capillaries are lined with macromolecules forming an endothelial surface layer (ESL). A theoretical model is used to investigate effects…”
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Normal endothelium by Pries, A R, Kuebler, W M

“…In recent decades, it has become evident that the endothelium is by no means a passive inner lining of blood vessels. This 'organ' with a large surface…”
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Microvascular responses to (hyper-)gravitational stress by short-arm human centrifuge: arteriolar vasoconstriction and venous pooling by Habazettl, H., Stahn, Alexander, Nitsche, Andrea, Nordine, Michael, Pries, A. R., Gunga, H. -C., Opatz, O.

“…Purpose We hypothesized that lower body microvessels are particularly challenged during exposure to gravity and hypergravity leading to failure of resistance…”
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Blood viscosity in tube flow: dependence on diameter and hematocrit by Pries, A R, Neuhaus, D, Gaehtgens, P

“…Since the original publications by Martini et al. (Dtsch. Arch. Klin. Med. 169: 212-222, 1930) and Fahraeus and Lindqvist (Am. J. Physiol. 96: 562-568, 1931),…”
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Rheology of the microcirculation by Pries, A R, Secomb, T W

“…The main function of the microvasculature is the controlled exchange of materials with surrounding tissues. This necessitates a large vessel surface…”
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A model for red blood cell motion in glycocalyx-lined capillaries by Secomb, T W, Hsu, R, Pries, A R

“…The interior surfaces of capillaries are lined with a layer (glycocalyx) of macromolecules bound or absorbed to the endothelium. Here, a theoretical model is…”
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Control of arterial branching morphogenesis in embryogenesis: go with the flow by LE NOBLE, F, FLEURY, V, PRIES, A, CONVOL, P, EICHMANN, A, RENEMAN, R. S

“…Formation of a properly branched vascular system during embryogenesis is crucial for embryo survival. Here we review the regulation of the morphogenesis of the…”
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Structural response of microcirculatory networks to changes in demand: information transfer by shear stress by Pries, A R, Reglin, B, Secomb, T W

“…Matching blood flow to metabolic demand in terminal vascular beds involves coordinated changes in diameters of vessels along flow pathways, requiring upstream…”
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Lipoprotein binding to anionic biopolyelectrolytes and the effect of glucose on nanoplaque formation in arteriosclerosis and Alzheimer's disease by Siegel, G., Mockenhaupt, F.H.M.E., Behnke, A.-L., Ermilov, E., Winkler, K., Pries, A.R., Malmsten, M., Hetzer, R., Saunders, R., Lindman, B.

“…Arteriosclerosis with its clinical sequelae (cardiac infarction, stroke, peripheral arterial occlusive disease) and vascular/Alzheimer dementia not only result…”
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Resistance to Blood Flow in Microvessels In Vivo by Pries, A R, Secomb, T W, Gezner, T, Sperandio, M B, Gross, J F, Gaehtgens, P

“…Resistance to blood flow through peripheral vascular beds strongly influences cardiovascular function and transport to tissue. For a given vascular…”
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