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Hyaluronic acid inhibits the glial scar formation after brain damage with tissue loss in rats

Abstract Background Brain tissue scarring (gliosis) was believed to be the major cause of epileptic focus after brain injury, and prevention of scarring could reduce the incidence of seizure. We tried the HA coating onto the cortical brain defect of Spraque-Dawley rats to reduce the marginal glial s...

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Bibliographic Details
Published in:Surgical neurology 2009-12, Vol.72, p.S50-S54
Main Authors: Lin, Chien-Min, MD, Lin, Jia-Wei, MD, PhD, Chen, Yen-Chou, PhD, Shen, Hsin-Hsin, PhD, Wei, Li, MD, Yeh, Yi-Shian, MD, Chiang, Yung-Hsiao, MD, PhD, Shih, Raymond, BS, Chiu, Pei-Ling, BS, Hung, Kuo-Sheng, MD, PhD, Yang, Liang-Yo, DVM, PhD, Chiu, Wen-Ta, MD, PhD
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Language:English
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Summary:Abstract Background Brain tissue scarring (gliosis) was believed to be the major cause of epileptic focus after brain injury, and prevention of scarring could reduce the incidence of seizure. We tried the HA coating onto the cortical brain defect of Spraque-Dawley rats to reduce the marginal glial scarring. Methods A 4 × 2 × 2 mm3 cortical defect was created in the brain of Spraque-Dawley rats. Three percent HA gel was coated onto the lesion for the experimental groups and normal saline solutions for the control groups. The brain was retrieved 4, 8, and 12 weeks after treatment. The brains were then sectioned and processed for H&E and GFAP staining, and the thickness of the scarring and the number of GFAP+ cells were analyzed. Results The thickness of cutting marginal gliosis was significantly decreased in the HA groups. The 12-week HA group showed the smallest thickness of gliosis, whereas the 12-week control group exhibited the largest thickness of gliosis. The significant difference in the thickness of gliosis was also noted between the HA and the control groups 8 weeks after treatment. The number of GFAP+ cells was also significantly decreased in the HA groups when compared to the respective control group 4, 8, and 12 weeks after the surgery. Conclusion The results support the hypothesis that HA inhibits glial scarring not only by decreasing the thickness of gliosis but also by reducing the number of the glial cells. Furthermore, our results suggest that HA might be used to reduce glial scar formation in central nervous system surgery, which subsequently prevents the post-operation or posttraumatic seizure incidence.
ISSN:0090-3019
1879-3339
DOI:10.1016/j.wneu.2009.09.004