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Neuroprotective effect of edaravone in experimental glaucoma model in rats: a immunofluorescence and biochemical analysis 被引量:2

Neuroprotective effect of edaravone in experimental glaucoma model in rats: a immunofluorescence and biochemical analysis
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摘要 AIM: To evaluate the neuroprotective activity of systemically administered edaravone in early and late stage of experimental glaucoma in rats.METHODS: In this study, 60 Wistar albino rats were used. Experimental glaucoma model was created by injecting hyaluronic acid to the anterior chamber once a week for 6wk in 46 of 60 subjects. Fourteen subjects without any medication were included as control group.Edaravone administered intraperitoneally 3 mg/kg/d to the 15 of 30 subjects starting at the onset of glaucoma induction and also administered intraperitoneally3 mg/kg/d to the other 15 subjects starting at three weeks after the onset of glaucoma induction. The other16 subjects who underwent glaucoma induction was administered any therapy. Retinal ganglion cells(RGCs)have been marked with dextran tetramethylrhodamine(DTMR) retrograde at the end of the sixth week and after48 h, subjects were sacrificed by the method of cardiac perfusion. Alive RGC density was assessed in the wholemount retina. Whole-mount retinal tissues homogenized and nitric oxide(NO), malondialdehyde(MDA) and total antioxidant capacity(TAC) values were measured biochemically.RESULTS: RGCs counted with Image-Pro Plus program, in the treatment group were found to be statistically significantly protected, compared to the glaucoma group(Bonferroni,P 【0.05). The neuroprotective activity of edaravone was found to be more influential byadministration at the start of the glaucoma process.Statistically significant lower NO levels were determined in the glaucoma group comparing treatment groups(Bonferroni, P 【0.05). MDA levels were found to be highest in untreated glaucoma group, TAC levels were found to be lower in the glaucoma induction groups than the control group(Bonferroni, P 【0.05).CONCLUSION: Systemic administration of edaravone in experimental glaucoma showed potent neuroprotective activity. The role of oxidative stress causing RGC damage in glaucoma was supported by this study results. AIM: To evaluate the neuroprotective activity of systemically administered edaravone in early and late stage of experimental glaucoma in rats.METHODS: In this study, 60 Wistar albino rats were used. Experimental glaucoma model was created by injecting hyaluronic acid to the anterior chamber once a week for 6wk in 46 of 60 subjects. Fourteen subjects without any medication were included as control group.Edaravone administered intraperitoneally 3 mg/kg/d to the 15 of 30 subjects starting at the onset of glaucoma induction and also administered intraperitoneally3 mg/kg/d to the other 15 subjects starting at three weeks after the onset of glaucoma induction. The other16 subjects who underwent glaucoma induction was administered any therapy. Retinal ganglion cells(RGCs)have been marked with dextran tetramethylrhodamine(DTMR) retrograde at the end of the sixth week and after48 h, subjects were sacrificed by the method of cardiac perfusion. Alive RGC density was assessed in the wholemount retina. Whole-mount retinal tissues homogenized and nitric oxide(NO), malondialdehyde(MDA) and total antioxidant capacity(TAC) values were measured biochemically.RESULTS: RGCs counted with Image-Pro Plus program, in the treatment group were found to be statistically significantly protected, compared to the glaucoma group(Bonferroni,P <0.05). The neuroprotective activity of edaravone was found to be more influential byadministration at the start of the glaucoma process.Statistically significant lower NO levels were determined in the glaucoma group comparing treatment groups(Bonferroni, P <0.05). MDA levels were found to be highest in untreated glaucoma group, TAC levels were found to be lower in the glaucoma induction groups than the control group(Bonferroni, P <0.05).CONCLUSION: Systemic administration of edaravone in experimental glaucoma showed potent neuroprotective activity. The role of oxidative stress causing RGC damage in glaucoma was supported by this study results.
出处 《International Journal of Ophthalmology(English edition)》 SCIE CAS 2015年第2期239-244,共6页 国际眼科杂志(英文版)
基金 Supported by Kocaeli University Scientific Research Projects Unit(KOU-BAP:project No.2012/002)
关键词 ANTIOXIDANT EDARAVONE GLAUCOMA NEUROPROTECTION antioxidant edaravone glaucoma neuroprotection
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