Evidence for bulk flow of brain interstitial fluid: significance for physiology and pathology

This review surveys evidence for the flow of brain interstitial fluid (ISF) via preferential pathways through the brain, and its relation to cerebrospinal fluid (CSF). Studies over >100 years have raised several controversial points, not all of them resolved. Recent studies have usefully combined a histological and a mathematical approach. Taken together the evidence indicates an ISF bulk flow rate of 0.1-0.3 microl min(-1) g(-1) in rat brain along preferential pathways especially perivascular spaces and axon tracts. The main source of this fluid is likely to be the brain capillary endothelium, which has the necessary ion transporters, channels and water permeability to generate fluid at a low rate, c1/100th of the rate per square centimeter of CSF secretion across choroid plexus epithelium. There is also evidence that a proportion of CSF may recycle from the subarachnoid space into arterial perivascular spaces on the ventral surface of the brain, and join the circulating ISF, draining back via venous perivascular spaces and axon tracts into CSF compartments, and out both through arachnoid granulations and along cranial nerves to the lymphatics of the neck. The bulk flow of ISF has implications for non-synaptic cell:cell communication (volume transmission); for drug delivery, distribution, and clearance; for brain ionic homeostasis and its disturbance in brain edema; for the immune function of the brain; for the clearance of beta-amyloid deposits; and for the migration of cells (malignant cells, stem cells).

[1]  Y. Uezono,et al.  Aquaporin subtypes in rat cerebral microvessels , 2001, Neuroscience Letters.

[2]  M. Bradbury,et al.  Factors influencing exit of substances from cerebrospinal fluid into deep cervical lymph of the rabbit. , 1983, The Journal of physiology.

[3]  D. Holtzman,et al.  Clearance of Alzheimer's amyloid-ss(1-40) peptide from brain by LDL receptor-related protein-1 at the blood-brain barrier. , 2000, The Journal of clinical investigation.

[4]  M. Herkenham,et al.  Studies of cerebrospinal fluid flow and penetration into brain following lateral ventricle and cisterna magna injections of the tracer [14C]inulin in rat , 1999, Neuroscience.

[5]  E. Oldfield,et al.  Convective delivery of macromolecules into the naive and traumatized spinal cords of rats. , 1999, Journal of neurosurgery.

[6]  H. Cserr,et al.  Drainage of cerebral interstitial fluid into deep cervical lymph of the rabbit. , 1981, The American journal of physiology.

[7]  P F Morrison,et al.  Convection-enhanced delivery of macromolecules in the brain. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[8]  B. Zlokovic,et al.  The Blood-Brain Barrier, Amino Acids and Peptides , 1990 .

[9]  C. Patlak,et al.  The Movements of Water and Solutes in the Brains of Mammals , 1976 .

[10]  M. Brightman,et al.  THE DISTRIBUTION WITHIN THE BRAIN OF FERRITIN INJECTED INTO CEREBROSPINAL FLUID COMPARTMENTS , 1965, The Journal of cell biology.

[11]  H. Cserr Physiology of the choroid plexus. , 1971, Physiological reviews.

[12]  Peter B. Reiner,et al.  β‐Amyloid efflux mediated by p‐glycoprotein , 2001 .

[13]  O. Lindvall,et al.  Neurogenesis after ischaemic brain insults , 2003, Current Opinion in Neurobiology.

[14]  T. Reese,et al.  JUNCTIONS BETWEEN INTIMATELY APPOSED CELL MEMBRANES IN THE VERTEBRATE BRAIN , 1969, The Journal of cell biology.

[15]  J. Millen,et al.  PERIVASCULAR SPACES OF THE MAMMALIAN CENTRAL NERVOUS SYSTEM , 1954 .

[16]  A. Verkman,et al.  Aquaporin water channels and endothelial cell function * , 2002, Journal of anatomy.

[17]  A. Marmarou,et al.  Clearance of brain edema and macromolecules through the cortical extracellular space. , 1992, Journal of neurosurgery.

[18]  E. Cattaneo,et al.  Neural stem cells: a pharmacological tool for brain diseases? , 2003, Pharmacological research.

[19]  R. Weller Pathology of Cerebrospinal Fluid and Interstitial Fluid of the CNS: Significance for Alzheimer Disease, Prion Disorders and Multiple Sclerosis , 1998, Journal of neuropathology and experimental neurology.

[20]  E. Oldfield,et al.  Chronic interstitial infusion of protein to primate brain: determination of drug distribution and clearance with single-photon emission computerized tomography imaging. , 1997, Journal of neurosurgery.

[21]  Hugh Davson,et al.  Physiology of the CSF and Blood-Brain Barriers , 1996 .

[22]  O. R. Blaumanis,et al.  Rapid solute transport throughout the brain via paravascular fluid pathways. , 1990, Advances in neurology.

[23]  W T Kyner,et al.  Bulk flow of brain interstitial fluid under normal and hyperosmolar conditions. , 1980, The American journal of physiology.

[24]  C. Patlak,et al.  Efflux of radiolabeled polyethylene glycols and albumin from rat brain. , 1981, The American journal of physiology.

[25]  Blasberg Rg,et al.  Transport of material between brain extracellular fluid, brain cells and blood. , 1974 .

[26]  W. Feindel,et al.  Dynamics of Brain Edema , 1976, Springer Berlin Heidelberg.

[27]  Jonathan D. Smith,et al.  Astrocytes down‐regulate neuronal β‐amyloid precursor protein expression and modify its processing in an apolipoprotein E isoform‐specific manner , 2001, European Journal of Neuroscience.

[28]  R. Keep,et al.  A morphometric study on the development of the lateral ventricle choroid plexus, choroid plexus capillaries and ventricular ependyma in the rat. , 1990, Brain research. Developmental brain research.

[29]  O. R. Blaumanis,et al.  Evidence for a ‘Paravascular’ fluid circulation in the mammalian central nervous system, provided by the rapid distribution of tracer protein throughout the brain from the subarachnoid space , 1985, Brain Research.

[30]  Charles Nicholson,et al.  Diffusion from an injected volume of a substance in brain tissue with arbitrary volume fraction and tortuosity , 1985, Brain Research.

[31]  N. Greig,et al.  Physiology and Pharmacology of the Blood-Brain Barrier , 1992, Handbook of Experimental Pharmacology.

[32]  T. Ichimura,et al.  Distribution of extracellular tracers in perivascular spaces of the rat brain , 1991, Brain Research.

[33]  Carol P. Geer,et al.  Interstitial fluid flow along white matter tracts: A potentially important mechanism for the dissemination of primary brain tumors , 1997, Journal of Neuro-Oncology.

[34]  C. Brosnan,et al.  Introduction to the Blood–Brain Barrier: Brain microvasculature in multiple sclerosis , 1998 .

[35]  O. R. Blaumanis,et al.  Focal cerebral edema impedes convective fluid/tracer movement through paravascular pathways in cat brain. , 1990, Advances in neurology.

[36]  W C Eckelman,et al.  Kinetic Modeling of [11C]Raclopride: Combined PET-Microdialysis Studies , 1997, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[37]  N. Abbott,et al.  Astrocyte–endothelial interactions and blood–brain barrier permeability * , 2002 .

[38]  H. Davson Physiology of the ocular and cerebrospinal fluids , 1956 .

[39]  R. Dantzer,et al.  Diffusion and action of intracerebroventricularly injected interleukin-1 in the CNS , 2000, Neuroscience.

[40]  N. Abbott Comparative Physiology of the Blood-Brain Barrier , 1992 .

[41]  P F Morrison,et al.  High-flow microinfusion: tissue penetration and pharmacodynamics. , 1994, The American journal of physiology.

[42]  D. Rall Transport through the ependymal linings. , 1968, Progress in brain research.

[43]  M. Brightman,et al.  The distribution within the brain of ferritin injected into cerebrospinal fluid compartments. II. Parenchymal distribution. , 1965, The American journal of anatomy.

[44]  E. Zhang,et al.  Directional and compartmentalised drainage of interstitial fluid and cerebrospinal fluid from the rat brain , 2004, Acta Neuropathologica.

[45]  E. Zhang,et al.  Anatomical pathways for lymphatic drainage of the brain and their pathological significance , 1995, Neuropathology and applied neurobiology.

[46]  N. Abbott Inflammatory Mediators and Modulation of Blood–Brain Barrier Permeability , 2000, Cellular and Molecular Neurobiology.

[47]  N. Abbott Dynamics of CNS Barriers: Evolution, Differentiation, and Modulation , 2005, Cellular and Molecular Neurobiology.

[48]  Stanley I. Rapoport,et al.  Blood-Brain Barrier in Physiology and Medicine , 1976 .

[49]  C. S. Patlak,et al.  Secretion and Bulk Flow of Interstitial Fluid , 1992 .

[50]  J. Ghersi-Egea,et al.  Rapid distribution of intraventricularly administered sucrose into cerebrospinal fluid cisterns via subarachnoid velae in rat , 1996, Neuroscience.

[51]  R O Weller,et al.  Pathways of Fluid Drainage from the Brain ‐ Morphological Aspects and Immunological Significance in Rat and Man , 1992, Brain pathology.

[52]  M. Bundgaard,et al.  Tightness of the blood‐brain barrier and evidence for brain interstitial fluid flow in the cuttlefish, Sepia officinalis. , 1985, The Journal of physiology.