The Virchow-Robin spaces: delineation by magnetic resonance imaging with considerations on anatomofunctional implications

Introduction The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal perforating vessels to penetrate deep into the cerebral parenchyma. Objective This study aims to delineate anatomical characteristi...

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Published in	Child's nervous system Vol. 27; no. 12; pp. 2057 - 2066
Main Authors	Tsutsumi, Satoshi, Ito, Masanori, Yasumoto, Yukimasa, Tabuchi, Takashi, Ogino, Ikuko
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.12.2011
Subjects	Adolescent Adult Aged Brain - pathology Child Child, Preschool Craniocerebral Trauma - pathology Dilatation, Pathologic - pathology Female Humans Magnetic Resonance Imaging Male Medicine Medicine & Public Health Middle Aged Neurosciences Neurosurgery Original Paper Prospective Studies Subarachnoid Space - anatomy & histology Subarachnoid Space - pathology Young Adult Physiological function Anatomy Dilated Virchow-Robin spaces Virchow-Robin spaces
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ISSN	0256-7040 1433-0350 1433-0350
DOI	10.1007/s00381-011-1574-y

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Abstract	Introduction The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal perforating vessels to penetrate deep into the cerebral parenchyma. Objective This study aims to delineate anatomical characteristics of the normal V-R spaces by MR imaging with considerations on clinical and anatomofunctional implications of the V-R spaces. Methods In this prospective study with 3T magnetic resonance (MR) imaging, the whole extent of the intracranial V-R spaces was classified into basal, cortical, subcortical, paraventricular, and brainstem segments, on the basis of the topological difference in 105 control subjects. Morphological characteristics in each segment of the V-R spaces are described. For comparison with the neuroimaging appearance, V-R spaces were histologically examined in cadaveric human brains. The physiological functions of the V-R spaces and pathognomonic implications of unusually dilated, but asymptomatic, V-R spaces encountered in five subjects are discussed. Results The V-R spaces were found to form a complicated, while anatomically highly consistent, intraparenchymal canal network distributed over the whole cerebral hemispheres and connect the cerebral convexity, basal cistern, and ventricular system. Conclusion The V-R spaces may be essential for drainage routes of cerebral metabolites, additional buoyancy for the brain, and maintenance of homogenous intracranial pressure. MR imaging may be more advantageous in depicting the V-R spaces than histological examination.
AbstractList	The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal perforating vessels to penetrate deep into the cerebral parenchyma. This study aims to delineate anatomical characteristics of the normal V-R spaces by MR imaging with considerations on clinical and anatomofunctional implications of the V-R spaces. In this prospective study with 3T magnetic resonance (MR) imaging, the whole extent of the intracranial V-R spaces was classified into basal, cortical, subcortical, paraventricular, and brainstem segments, on the basis of the topological difference in 105 control subjects. Morphological characteristics in each segment of the V-R spaces are described. For comparison with the neuroimaging appearance, V-R spaces were histologically examined in cadaveric human brains. The physiological functions of the V-R spaces and pathognomonic implications of unusually dilated, but asymptomatic, V-R spaces encountered in five subjects are discussed. The V-R spaces were found to form a complicated, while anatomically highly consistent, intraparenchymal canal network distributed over the whole cerebral hemispheres and connect the cerebral convexity, basal cistern, and ventricular system. The V-R spaces may be essential for drainage routes of cerebral metabolites, additional buoyancy for the brain, and maintenance of homogenous intracranial pressure. MR imaging may be more advantageous in depicting the V-R spaces than histological examination. The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal perforating vessels to penetrate deep into the cerebral parenchyma.INTRODUCTIONThe Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal perforating vessels to penetrate deep into the cerebral parenchyma.This study aims to delineate anatomical characteristics of the normal V-R spaces by MR imaging with considerations on clinical and anatomofunctional implications of the V-R spaces.OBJECTIVEThis study aims to delineate anatomical characteristics of the normal V-R spaces by MR imaging with considerations on clinical and anatomofunctional implications of the V-R spaces.In this prospective study with 3T magnetic resonance (MR) imaging, the whole extent of the intracranial V-R spaces was classified into basal, cortical, subcortical, paraventricular, and brainstem segments, on the basis of the topological difference in 105 control subjects. Morphological characteristics in each segment of the V-R spaces are described. For comparison with the neuroimaging appearance, V-R spaces were histologically examined in cadaveric human brains. The physiological functions of the V-R spaces and pathognomonic implications of unusually dilated, but asymptomatic, V-R spaces encountered in five subjects are discussed.METHODSIn this prospective study with 3T magnetic resonance (MR) imaging, the whole extent of the intracranial V-R spaces was classified into basal, cortical, subcortical, paraventricular, and brainstem segments, on the basis of the topological difference in 105 control subjects. Morphological characteristics in each segment of the V-R spaces are described. For comparison with the neuroimaging appearance, V-R spaces were histologically examined in cadaveric human brains. The physiological functions of the V-R spaces and pathognomonic implications of unusually dilated, but asymptomatic, V-R spaces encountered in five subjects are discussed.The V-R spaces were found to form a complicated, while anatomically highly consistent, intraparenchymal canal network distributed over the whole cerebral hemispheres and connect the cerebral convexity, basal cistern, and ventricular system.RESULTSThe V-R spaces were found to form a complicated, while anatomically highly consistent, intraparenchymal canal network distributed over the whole cerebral hemispheres and connect the cerebral convexity, basal cistern, and ventricular system.The V-R spaces may be essential for drainage routes of cerebral metabolites, additional buoyancy for the brain, and maintenance of homogenous intracranial pressure. MR imaging may be more advantageous in depicting the V-R spaces than histological examination.CONCLUSIONThe V-R spaces may be essential for drainage routes of cerebral metabolites, additional buoyancy for the brain, and maintenance of homogenous intracranial pressure. MR imaging may be more advantageous in depicting the V-R spaces than histological examination. Introduction The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal perforating vessels to penetrate deep into the cerebral parenchyma. Objective This study aims to delineate anatomical characteristics of the normal V-R spaces by MR imaging with considerations on clinical and anatomofunctional implications of the V-R spaces. Methods In this prospective study with 3T magnetic resonance (MR) imaging, the whole extent of the intracranial V-R spaces was classified into basal, cortical, subcortical, paraventricular, and brainstem segments, on the basis of the topological difference in 105 control subjects. Morphological characteristics in each segment of the V-R spaces are described. For comparison with the neuroimaging appearance, V-R spaces were histologically examined in cadaveric human brains. The physiological functions of the V-R spaces and pathognomonic implications of unusually dilated, but asymptomatic, V-R spaces encountered in five subjects are discussed. Results The V-R spaces were found to form a complicated, while anatomically highly consistent, intraparenchymal canal network distributed over the whole cerebral hemispheres and connect the cerebral convexity, basal cistern, and ventricular system. Conclusion The V-R spaces may be essential for drainage routes of cerebral metabolites, additional buoyancy for the brain, and maintenance of homogenous intracranial pressure. MR imaging may be more advantageous in depicting the V-R spaces than histological examination.
Author	Tabuchi, Takashi Ogino, Ikuko Tsutsumi, Satoshi Ito, Masanori Yasumoto, Yukimasa
Author_xml	– sequence: 1 givenname: Satoshi surname: Tsutsumi fullname: Tsutsumi, Satoshi email: shotaro@juntendo-urayasu.jp organization: Department of Neurological Surgery, Juntendo University Urayasu Hospital – sequence: 2 givenname: Masanori surname: Ito fullname: Ito, Masanori organization: Department of Neurological Surgery, Juntendo University Urayasu Hospital – sequence: 3 givenname: Yukimasa surname: Yasumoto fullname: Yasumoto, Yukimasa organization: Department of Neurological Surgery, Juntendo University Urayasu Hospital – sequence: 4 givenname: Takashi surname: Tabuchi fullname: Tabuchi, Takashi organization: Division of Radiological Technology, Medical Satellite Yaesu Clinic – sequence: 5 givenname: Ikuko surname: Ogino fullname: Ogino, Ikuko organization: Department of Neurological Surgery, Juntendo University School of Medicine
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Snippet	Introduction The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity... The Virchow-Robin spaces (V-R spaces) are well-known, but not systematically understood fluid-filled perivascular spaces that allow the convexity and basal...
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SubjectTerms	Adolescent Adult Aged Brain - pathology Child Child, Preschool Craniocerebral Trauma - pathology Dilatation, Pathologic - pathology Female Humans Magnetic Resonance Imaging Male Medicine Medicine & Public Health Middle Aged Neurosciences Neurosurgery Original Paper Prospective Studies Subarachnoid Space - anatomy & histology Subarachnoid Space - pathology Young Adult
Title	The Virchow-Robin spaces: delineation by magnetic resonance imaging with considerations on anatomofunctional implications
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