A driving force for change: interstitial flow as a morphoregulator

Joseph M Rutkowski, Melody A Swartz

Morphology interstitial flow

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Interstitial flow moves nutrients and signaling molecules through the extracellular matrix

02Physical movement and respiration help drive fluid from blood capillaries toward lymphatic vessels

03Fluid forces influence how cells migrate and how tissues organize during development

04Disruptions in flow are associated with inflammation, lymphedema, and tumor biology

Subtle fluid flow through connective tissue is a vital force that guides cell signaling, tissue maintenance, and immune system function.

Abstract

Dynamic stresses that are present in all living tissues drive small fluid flows, called interstitial flows, through the extracellular matrix. Interstitial flow not only helps to transport nutrients throughout the tissue, but also has important roles in tissue maintenance and pathobiology that have been, until recently, largely overlooked. Here, we present evidence for the various effects of interstitial flow on cell biology, including its roles in embryonic development, tissue morphogenesis and remodeling, inflammation and lymphedema, tumor biology and immune cell trafficking. We also discuss possible mechanisms by which interstitial flow can induce morphoregulation, including direct shear stress, matrix-cell transduction (as has been proposed in the endothelial glycocalyx) and the newly emerging concept of autologous gradient formation.

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Cite this study

APA: Joseph M Rutkowski, & Melody A Swartz (2007). A driving force for change: interstitial flow as a morphoregulator. https://fasciaresearchdatabase.com/a-driving-force-for-change-interstitial-flow-as-a-morphoregulator/
MLA: Joseph M Rutkowski, and Melody A Swartz. "A driving force for change: interstitial flow as a morphoregulator." 2007, https://fasciaresearchdatabase.com/a-driving-force-for-change-interstitial-flow-as-a-morphoregulator/.
Chicago: Joseph M Rutkowski, Melody A Swartz. 2007. "A driving force for change: interstitial flow as a morphoregulator.". https://fasciaresearchdatabase.com/a-driving-force-for-change-interstitial-flow-as-a-morphoregulator/