The glymphatic system: Current understanding and modeling

Tomas Bohr; Poul G. Hjorth; Sebastian C. Holst; Sabina Hrabětová; Vesa Kiviniemi; Tuomas O. Lilius; Iben Lundgaard; Kent‐André Mardal; Erik A. Martens; Yuki Mori; U. Valentin Nägerl; Charles Nicholson; Allen Tannenbaum; John H. Thomas; Jeffrey Tithof; Helene Benveniste; Jeffrey J. Iliff; Douglas H. Kelley; Maiken Nedergaard

doi:10.1016/j.isci.2022.104987

The glymphatic system: Current understanding and modeling

Tomas Bohr(Technical University of Denmark), Poul G. Hjorth(Technical University of Denmark), Sebastian C. Holst(Roche (Switzerland)), Sabina Hrabětová(State University of New York), Vesa Kiviniemi(Oulu University Hospital), Tuomas O. Lilius(University of Copenhagen), Iben Lundgaard(Lund University), Kent‐André Mardal(University of Oslo), Erik A. Martens(Statistics Sweden), Yuki Mori(University of Copenhagen), U. Valentin Nägerl(Centre National de la Recherche Scientifique), Charles Nicholson(SUNY Downstate Health Sciences University), Allen Tannenbaum(Applied Mathematics (United States)), John H. Thomas(University of Rochester), Jeffrey Tithof(University of Minnesota), Helene Benveniste(Yale University), Jeffrey J. Iliff(University of Washington), Douglas H. Kelley(University of Rochester), Maiken Nedergaard(University of Copenhagen)

iScience

August 20, 2022

10.1016/j.isci.2022.104987

Cited by 347Open Access

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Abstract

We review theoretical and numerical models of the glymphatic system, which circulates cerebrospinal fluid and interstitial fluid around the brain, facilitating solute transport. Models enable hypothesis development and predictions of transport, with clinical applications including drug delivery, stroke, cardiac arrest, and neurodegenerative disorders like Alzheimer's disease. We sort existing models into broad categories by anatomical function: Perivascular flow, transport in brain parenchyma, interfaces to perivascular spaces, efflux routes, and links to neuronal activity. Needs and opportunities for future work are highlighted wherever possible; new models, expanded models, and novel experiments to inform models could all have tremendous value for advancing the field.

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