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Literature DB >> 32094487

Perivascular spaces in the brain: anatomy, physiology and pathology.

Joanna M Wardlaw¹, Helene Benveniste², Maiken Nedergaard^3,4, Berislav V Zlokovic^5,6, Humberto Mestre⁴, Hedok Lee², Fergus N Doubal⁷, Rosalind Brown⁷, Joel Ramirez^8,9,10, Bradley J MacIntosh^9,11, Allen Tannenbaum¹², Lucia Ballerini⁷, Ravi L Rungta¹³, Davide Boido¹³, Melanie Sweeney^5,6, Axel Montagne^5,6, Serge Charpak¹³, Anne Joutel¹⁴, Kenneth J Smith¹⁵, Sandra E Black^8,9,10.

Abstract

Perivascular spaces include a variety of passageways around arterioles, capillaries and venules in the brain, along which a range of substances can move. Although perivascular spaces were first identified over 150 years ago, they have come to prominence recently owing to advances in knowledge of their roles in clearance of interstitial fluid and waste from the brain, particularly during sleep, and in the pathogenesis of small vessel disease, Alzheimer disease and other neurodegenerative and inflammatory disorders. Experimental advances have facilitated in vivo studies of perivascular space function in intact rodent models during wakefulness and sleep, and MRI in humans has enabled perivascular space morphology to be related to cognitive function, vascular risk factors, vascular and neurodegenerative brain lesions, sleep patterns and cerebral haemodynamics. Many questions about perivascular spaces remain, but what is now clear is that normal perivascular space function is important for maintaining brain health. Here, we review perivascular space anatomy, physiology and pathology, particularly as seen with MRI in humans, and consider translation from models to humans to highlight knowns, unknowns, controversies and clinical relevance.

Entities: Chemical

Mesh：

Year: 2020 PMID： 32094487 DOI： 10.1038/s41582-020-0312-z

Source DB: PubMed Journal: Nat Rev Neurol ISSN： 1759-4758 Impact factor: 42.937

114 in total

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7. Perivascular spaces and their associations with risk factors, clinical disorders and neuroimaging features: A systematic review and meta-analysis.

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8. Test of the 'glymphatic' hypothesis demonstrates diffusive and aquaporin-4-independent solute transport in rodent brain parenchyma.

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Authors: Erik N T P Bakker; Brian J Bacskai; Michal Arbel-Ornath; Roxana Aldea; Beatrice Bedussi; Alan W J Morris; Roy O Weller; Roxana O Carare
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10. Human and nonhuman primate meninges harbor lymphatic vessels that can be visualized noninvasively by MRI.

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113 in total

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2. Effects of ginkgo diterpene lactone on brain inflammation and oxidative stress in rats with cognitive impairment of cerebral small vessel disease.

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Journal: Am J Transl Res Date: 2021-06-15 Impact factor: 4.060

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Review 4. Regulation of cerebral blood flow in humans: physiology and clinical implications of autoregulation.

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7. Volumetric distribution of perivascular space in relation to mild cognitive impairment.

Authors: Farshid Sepehrband; Giuseppe Barisano; Nasim Sheikh-Bahaei; Jeiran Choupan; Ryan P Cabeen; Kirsten M Lynch; Malcolm S Crawford; Haoyu Lan; Wendy J Mack; Helena C Chui; John M Ringman; Arthur W Toga
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8. Show Me Your White Matter, I Will Tell You Who You Are ….

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10. Repetitive Low-Level Blast Exposure Improves Behavioral Deficits and Chronically Lowers Aβ42 in an Alzheimer Disease Transgenic Mouse Model.

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