Différenciation artérioveineuse : génétique ou hémodynamique ?

Adaptation of vascular networks to functional demands needs vessel growth, vessel regression and vascular remodelling. Biomechanical forces resulting from blood flow play a key role in these processes. It is well-known that metabolic stimuli, mechanical forces and flow patterns can affect gene expression and remodelling of vascular networks in different ways. For instance, in the sprouting type of angiogenesis related to hypoxia, there is no blood flow in the rising capillary sprout. In contrast, it has been shown that an increase of wall shear stress initiates the splitting type of angiogenesis in skeletal muscle. Otherwise, during development, both sprouting and intussusception act in parallel in building the vascular network, although with differences in spatiotemporal distribution. Thereby, in addition to regulatory molecules, flow dynamics support the patterning and remodelling of the rising vascular tree. Herewith, we present an overview of angiogenic processes with respect to intussusceptive angiogenesis as related to local haemodynamics.

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Intussusceptive angiogenesis: pillars against the blood flow

Styp-Rekowska

Hlushchuk

Pries

et al. 2011

Acta Physiologica

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Shear-Stress Sensitive Inwardly-Rectifying K+ Channels Regulate Developmental Retinal Angiogenesis by Vessel Regression

Boriushkin

Fancher

Levitan

2019

Cell Physiol Biochem

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Différenciation artérioveineuse : génétique ou hémodynamique ?

Cited by 2 publications

References 17 publications

Intussusceptive angiogenesis: pillars against the blood flow

Intussusceptive angiogenesis: pillars against the blood flow

Shear-Stress Sensitive Inwardly-Rectifying K+ Channels Regulate Developmental Retinal Angiogenesis by Vessel Regression

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