Literature DB >> 9457114

Relationship of senescence of cerebrospinal fluid circulatory system to dementias of the aged.

E Rubenstein1.   

Abstract

In common with other organ systems, the cerebrospinal fluid circulatory system is subject to senescence. Cerebrospinal fluid production and turnover rates decline. The choroid plexus calcifies and its blood supply falters. Microvascular disease violates the integrity of the blood-brain barrier. The arachnoid membranes thicken. Arachnoid villi occlude and degenerate. The consequent functional losses are exacerbated by the deterioration of other interacting organ systems. Eventually, the cerebrospinal fluid circulatory system may fail, resulting in stagnation, contamination, compositional deficiencies, and impaired clearance of noxious substances. The hypothesis is that senescence of the cerebrospinal fluid circulatory system plays a part in some dementias of the aged.

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Year:  1998        PMID: 9457114     DOI: 10.1016/S0140-6736(97)09234-9

Source DB:  PubMed          Journal:  Lancet        ISSN: 0140-6736            Impact factor:   79.321


  28 in total

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2.  Frequency of Alzheimer's disease pathology at autopsy in patients with clinical normal pressure hydrocephalus.

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Review 4.  The Regulation of Cerebral Spinal Fluid Flow and Its Relevance to the Glymphatic System.

Authors:  Colin D McKnight; Renee M Rouleau; Manus J Donahue; Daniel O Claassen
Journal:  Curr Neurol Neurosci Rep       Date:  2020-10-19       Impact factor: 5.081

Review 5.  Understanding the functions and relationships of the glymphatic system and meningeal lymphatics.

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6.  Primary cell culture of meningothelial cells--a new model to study the arachnoid in glaucomatous optic neuropathy.

Authors:  Xiaorong Xin; Bin Fan; Hanspeter E Killer; Albert Neutzner; Josef Flammer; Peter Meyer
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7.  The function and structure of the cerebrospinal fluid outflow system.

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Journal:  Cerebrospinal Fluid Res       Date:  2010-06-21

8.  The pathophysiology of idiopathic normal pressure hydrocephalus: cerebral ischemia or altered venous hemodynamics?

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9.  Traumatic brain injury-induced ependymal ciliary loss decreases cerebral spinal fluid flow.

Authors:  Guoxiang Xiong; Jaclynn A Elkind; Suhali Kundu; Colin J Smith; Marcelo B Antunes; Edwin Tamashiro; Jennifer M Kofonow; Christina M Mitala; Jeffrey Cole; Sherman C Stein; M Sean Grady; Eugene Einhorn; Noam A Cohen; Akiva S Cohen
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Review 10.  Cerebrospinal fluid stasis and its clinical significance.

Authors:  James M Whedon; Donald Glassey
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