Literature DB >> 24749541

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

Guoxiang Xiong1, 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.   

Abstract

Traumatic brain injury (TBI) afflicts up to 2 million people annually in the United States and is the primary cause of death and disability in young adults and children. Previous TBI studies have focused predominantly on the morphological, biochemical, and functional alterations of gray matter structures, such as the hippocampus. However, little attention has been given to the brain ventricular system, despite the fact that altered ventricular function is known to occur in brain pathologies. In the present study, we investigated anatomical and functional alterations to mouse ventricular cilia that result from mild TBI. We demonstrate that TBI causes a dramatic decrease in cilia. Further, using a particle tracking technique, we demonstrate that cerebrospinal fluid flow is diminished, thus potentially negatively affecting waste and nutrient exchange. Interestingly, injury-induced ventricular system pathology resolves completely by 30 days after injury as ependymal cell ciliogenesis restores cilia density to uninjured levels in the affected lateral ventricle.

Entities:  

Keywords:  basal body; hydrocephalus; lateral fluid percussion; particle tracking; β-tubulin

Mesh:

Year:  2014        PMID: 24749541      PMCID: PMC4132584          DOI: 10.1089/neu.2013.3110

Source DB:  PubMed          Journal:  J Neurotrauma        ISSN: 0897-7151            Impact factor:   5.269


  55 in total

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