A multilayer interstitial fluid flow along vascular adventitia

TL;DR

This study reveals a multilayer, multiform interstitial fluid flow along vascular adventitia, characterized by specific pathways, velocities, and accessibility, providing new insights into the dynamic mechanisms of fluid transport in biological tissues.

Contribution

It uncovers the detailed kinetic pattern and structural pathways of interstitial fluid flow along vascular adventitia, highlighting a multilayer and multiform flow mechanism.

Findings

Interstitial fluid flows along fibrous connective tissue pathways.

Flow velocity ranges from 3.6 to 15.6 mm/sec.

Flow pathways are accessible to nanoparticles under 100nm.

Abstract

Objective: Interstitial fluid flow through vascular adventitia has been disclosed recently. However, its kinetic pattern was unclear. Methods and Results: We used histological and topographical identifications to observe ISF flow along venous vessels in rabbits. By MRI in alive subjects, the inherent ISF flow pathways in legs, abdomen and thorax were enhanced by paramagnetic contrast from ankle dermis. By fluorescence stereomicroscopy and layer-by-layer dissection after the rabbits were sacrificed, the perivascular and adventitial connective tissues (PACT) along the saphenous veins and inferior vena cava were found to be stained by sodium fluorescein from ankle dermis, which coincided with the findings by MRI. By confocal microscopy and histological analysis, the stained PACT pathways were verified to be the fibrous connective tissues and consisted of longitudinally assembled fibers. By usages of nanoparticles and surfactants, a PACT pathway was found to be accessible for a nanoparticle under 100nm and contain two parts: a tunica channel part and an absorptive part. In real-time observations, the calculated velocity of a continuous ISF flow along fibers of a PACT pathway was 3.6-15.6 mm/sec. Conclusion: These data further revealed more kinetic features of a continuous ISF flow along vascular vessel. A multiscale, multilayer, and multiform interstitial/interfacial fluid flow throughout perivascular and adventitial connective tissues was suggested as one of kinetic and dynamic mechanisms for ISF flow, which might be another principal fluid dynamic pattern besides convective/vascular and diffusive transport in biological system.