Shinoda Kei, Rejdak Robert, Schuettauf Frank, Blatsios Georgios, Völker Michael, Tanimoto Naoyuki, Olcay Tatar, Gekeler Florian, Lehaci Cristina, Naskar Rita, Zagorski Zbigniew, Zrenner Eberhart
University Eye Hospital, Tübingen, Germany.
Clin Exp Ophthalmol. 2007 Dec;35(9):847-54. doi: 10.1111/j.1442-9071.2007.01607.x.
This study set out to document the early electrophysiological and immunohistochemical changes that occur in the retina of experimentally induced diabetic rats.
Diabetes was induced in rats by intraperitoneal injection of 60 mg/kg of streptozotocin (STZ). Electroretinogram readings were taken monthly under either short-duration or long-duration stimuli for up to 3 months after STZ. Oscillatory potentials (OP) and the amplitudes and implicit times of a- and b-waves were analysed, and b-wave amplitudes were analysed using a Naka-Rushton fit. Scotopic a-waves were analysed with photoreceptor models, and Rmp3 (the maximum a-wave amplitude) and S (sensitivity) were calculated. Three months after STZ injection, immunohistochemistry for glial fibrillary acidic protein was performed on the retinas of the STZ-treated rats and age-matched controls.
The implicit OP times were significantly longer in the diabetic rats as compared with the controls, and this difference was noted as early as 1 month following STZ treatment. Other electrophysiological parameters, such as OP amplitudes, a- and b-wave amplitude as well as the implicit times, did not differ from controls at this stage. The sacrificed STZ-treated rats also demonstrated marked enhancement of glial fibrillary acidic protein immunoreactivity, suggesting that at least in experimentally induced diabetic retinopathy there is increased Müller cell reactivity.
The results of this study indicated that functional alterations in the retina develop rapidly after the onset of diabetes. Analysis of each electroretinogram component may be useful in further investigating the development mechanisms of diabetic retinopathy.
本研究旨在记录实验性诱导糖尿病大鼠视网膜早期发生的电生理和免疫组化变化。
通过腹腔注射60mg/kg链脲佐菌素(STZ)诱导大鼠患糖尿病。在注射STZ后长达3个月的时间里,每月对大鼠进行短时间或长时间刺激下的视网膜电图读数测量。分析振荡电位(OP)以及a波和b波的振幅和隐含时间,并使用中河-拉什顿拟合分析b波振幅。用感光细胞模型分析暗视a波,并计算Rmp3(最大a波振幅)和S(敏感性)。在注射STZ三个月后,对接受STZ治疗的大鼠和年龄匹配的对照大鼠的视网膜进行胶质纤维酸性蛋白免疫组化检测。
与对照组相比,糖尿病大鼠的OP隐含时间显著延长,这种差异在STZ治疗后1个月就已出现。在这个阶段,其他电生理参数,如OP振幅、a波和b波振幅以及隐含时间,与对照组没有差异。处死的接受STZ治疗的大鼠还表现出胶质纤维酸性蛋白免疫反应性显著增强,这表明至少在实验性诱导的糖尿病视网膜病变中,Müller细胞反应性增加。
本研究结果表明,糖尿病发病后视网膜功能改变迅速出现。对每个视网膜电图成分的分析可能有助于进一步研究糖尿病视网膜病变的发病机制。
