机构地区:[1]Cullen Eye Institute, Baylor College of Medicine
出 处:《International Journal of Ophthalmology(English edition)》2016年第2期211-217,共7页国际眼科杂志(英文版)
基 金:Supported by International Retinal Research Foundation
摘 要:AIM: To characterize the pattern of intraocular pressure (lOP) change and the deficit of retinal ganglion cells (RGCs) in DBA2J, which is most well-characterized chronic glaucoma mouse model and wild type (WT) C57bl/6 mice, and to study the relationship between lOP change and RGCs deficit. METHODS: lOP was monitored with a rebound tonometer in C57bl/6 and DBA2J mice from 3 to 15-month-old. Retinal function was evaluated by dark -adapted electroretinogram (ERG) in DBA2J and WT mice of 15-month-old. A dye (Neurobiotin) was applied to optic nerve stump to retrograde label RGCs. TO-PRO-3 visualized all nuclei of cells in the RGC layer. RESULTS: The lOP in WT mice was 9.03-0.6 mm Hg on average and did not increase significantly as aging. The lOP in DBA2J mice, arranging from 7.2 to 28 mm Hg, was increasing significantly as aging, and it was normal at 3-month--old compared with WT mice, slightly increased from 7-month-old and increased in 50% animals at 11-month-old and in 38% animals at 15-month-old. The RGCs density in DBA2J mice started reducing by 7-month-old, continuously decreased until reached about 20% of RGC in WT retina by 15-month-old. RGC density was not linearly correlated with lOP in 15-month- old DBA2J mice. The amplitude of positive scotopic threshold response, and negative scotopic threshold response of ERG were significantly reduced in DBA2J mice of 15-month-old than that in age-paired WT mice. CONCLUSION: The present study found that DBA2J mice display pathological and functional deficits of the retina that was not linearly correlated with lOP.AIM: To characterize the pattern of intraocular pressure (lOP) change and the deficit of retinal ganglion cells (RGCs) in DBA2J, which is most well-characterized chronic glaucoma mouse model and wild type (WT) C57bl/6 mice, and to study the relationship between lOP change and RGCs deficit. METHODS: lOP was monitored with a rebound tonometer in C57bl/6 and DBA2J mice from 3 to 15-month-old. Retinal function was evaluated by dark -adapted electroretinogram (ERG) in DBA2J and WT mice of 15-month-old. A dye (Neurobiotin) was applied to optic nerve stump to retrograde label RGCs. TO-PRO-3 visualized all nuclei of cells in the RGC layer. RESULTS: The lOP in WT mice was 9.03-0.6 mm Hg on average and did not increase significantly as aging. The lOP in DBA2J mice, arranging from 7.2 to 28 mm Hg, was increasing significantly as aging, and it was normal at 3-month--old compared with WT mice, slightly increased from 7-month-old and increased in 50% animals at 11-month-old and in 38% animals at 15-month-old. The RGCs density in DBA2J mice started reducing by 7-month-old, continuously decreased until reached about 20% of RGC in WT retina by 15-month-old. RGC density was not linearly correlated with lOP in 15-month- old DBA2J mice. The amplitude of positive scotopic threshold response, and negative scotopic threshold response of ERG were significantly reduced in DBA2J mice of 15-month-old than that in age-paired WT mice. CONCLUSION: The present study found that DBA2J mice display pathological and functional deficits of the retina that was not linearly correlated with lOP.
关 键 词:retinal ganglion cell GLAUCOMA INTRAOCULARPRESSURE RETINA MOUSE
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