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Arterial pulsations drive oscillatory flow of CSF but not directional pumping

Ravi Teja Kedarasetti, Patrick J. Drew, Francesco Costanzo

2020Scientific Reports137 citationsDOIOpen Access PDF

Abstract

The brain lacks a traditional lymphatic system for metabolite clearance. The existence of a "glymphatic system" where metabolites are removed from the brain's extracellular space by convective exchange between interstitial fluid (ISF) and cerebrospinal fluid (CSF) along the paravascular spaces (PVS) around cerebral blood vessels has been controversial. While recent work has shown clear evidence of directional flow of CSF in the PVS in anesthetized mice, the driving force for the observed fluid flow remains elusive. The heartbeat-driven peristaltic pulsation of arteries has been proposed as a probable driver of directed CSF flow. In this study, we use rigorous fluid dynamic simulations to provide a physical interpretation for peristaltic pumping of fluids. Our simulations match the experimental results and show that arterial pulsations only drive oscillatory motion of CSF in the PVS. The observed directional CSF flow can be explained by naturally occurring and/or experimenter-generated pressure differences.

Topics & Concepts

Glymphatic systemCerebrospinal fluidInterstitial fluidPeristalsisPerivascular spaceFluid dynamicsExtracellular fluidPeristaltic pumpFlow (mathematics)MechanicsBlood flowCerebral blood flowBiomedical engineeringChemistryExtracellularPhysicsMedicineAnatomyCardiologyInternal medicineMeteorologyBiochemistryCerebrospinal fluid and hydrocephalusAdvanced Neuroimaging Techniques and ApplicationsTraumatic Brain Injury and Neurovascular Disturbances
Arterial pulsations drive oscillatory flow of CSF but not directional pumping | Litcius