Objective To observe the preventing effect of intraocular injection of Bevacizumab (Avastin) to retinal microvascular proliferation in non-obese diabetes mice. Methods In the study, thirty non-obese diabetes mice (NOD mice) were selected. The left eyes of mice were selected as treatment group with 1mu;l A vastin (25mg/1ml) injected, and right eyes were selected as control group with 1 mu;l saline injected. One week, one month, two months after injection, ten mice were selected randomly, and then enucleated two eyes, in which the retinal microvascular endothelial cells ultrastructure and immunohistochemistry of retinal CD34 and VEGF, were observed and measured. The differences of dense of positive sta ining between two groups were compared by digital image analysis. Results The positive expression of VEGF and CD34 were brown staining, and the positive staining of CD34 located in vascular endothelial cells. There was statistically significant difference in VEGF expression between two groups in 1 week and 1 month after injection(t=21.6, t=13.5; P<0.01), and no statistically significant difference in 2 months after injection (t=0.9, P>0.05). There was statistically significant difference in CD34 expression between two groups in 1 month and 2 months af ter injection(t=3.2, P<0.01; t=2.7, P<0.05) and no statistically significant difference in 1 week after injection(t=1.3, P>0.05). In every time point after injection, there was no obvious change in the microstructure of retinal vascular endothelial cells. Conclusion Intraocular injection of Avastin could prevent the abnormal proliferation of retinal microvascular in NOD mice. (Chin J Ocul Fundus Dis,2008,24:180-183)
Objective To observe the effect of Fufang XueShuanTong (FXST) on prevention for retinal microangiopathy of diabetic rats. Methods Take the normal male Wistar rats as normal control group; take the streptozotocin (STZ) Wistar rats as diabetic model group. And then the diabetic model group was divided into two groups: diabetic control group (without other treatment) and FXST treatment group (with FXST at dose 900 mg/kg, by the way of given medicine from esophagus to stomach, 1 time/day, experimental period was 20 weeks). When all the animals had been raised for 20 weeks, not only retinal digesting preparations were used, the endothelium/pericyte ratio (E/P ratio) and micro-vascular changes were observed by microscope, vascular relative area were measured by image system,but also the thickness of capillary basement membrane, the ultrastructural changes of endothelium and pericyte were observed by transmission electron microscope. Results On the 20th week, retinal digesting preparations showed that acellular capillaries, irregular vessel nets, segmental expansion, segmental stricture even occlusion, pericyte number decreased obviously, E/P ratio increased, vascular relative area increased and ghosts of pericytes etc in diabetic control group. Compared to diabetic control group, the retinal changes of FXST treatment group was lighter, the E/P ratio and vascular relative area were closer to normal control group. Transmission electron microscopy results showed that thickness of basement membrane was increased in DM group, vascular changes was light in FXST treated group. Conclusions FXST can prevent the changes of micrangium in diabetic rats effectively. (Chin J Ocul Fundus Dis,2008,24:272-275)