At present, tamponade agent which being used in retinal surgery is mainly sterile air, gas and silicone oil. Sterile air is mostly used in the treatment of simple retinal detachment. Gas or silicone oil as tamponade is greatly applied for complicated retinal detachment. In recent years, with the application of micro-invasive vitrectomy under a wide-angle viewing system and perioperative anti-vascular endothelial growth factor drugs, application of intraocular filling materials also has changed. The application of silicone oil is significantly reduced. Percentage rate of gas as tamponade for retinal detachment is reduced. The application of sterile air as tamponade is rising. With selecting indication carefully and picking up the suitable air or gas, doctor will reduce the workload. It will also reduce the social burden and benefit patients.
Due to the high incidence and the earlier onset age, high myopia has become an important public health problem in China. Posterior scleral reinforcement surgery has been developed for over 60 years in order to control the rapid progression and complications of high myopia. By suturing a certain size of material on the surface of the posterior eyeball, thickness and elasticity modulus of the local sclera significantly increase. As the result, the rapid growth of the axial length and the chorioretinopathy could be alleviated. At present, controversies about its clinical efficacy and safety still exist, so posterior scleral reinforcement surgery has not been widely carried out all over the world. An in-depth analysis of the mechanism, surgical manipulations and materials, the clinical application status of posterior scleral reinforcement surgery on control of high myopia can provide a basis for further standardized application of this surgery
Objective To cultivate human retinal capillary endothelial cells (HRECs) and establish two-dimensional model of human retinal vessels in vitro. Methods In a fibronectincoated raising pound, HRECs were cultured by non-serum human-endothelial-cells substrate and two-dimensional model of human retinal vessels was established. Horseradish peroxidase was used to detect the permeability. Some of the vascular models were cultivated with 5 ng/ml vascular endothelial growth factor (VEGF), whose changes of permeability was compared with which of the models without cultivation with VEGF. The effect of VEGF on vascular permeability was observed. Results Meshy vascular structure came into being due to the confluent HRECs after 2 to 4 days. Comparatively complete two-dimensional vascular model after about 6 days. VEGF increased vascular permeability and promoted the formation of blood vessels. Conclusion HRECs can be cultivated successfully with human-endothelial-cells substrate; standard retinal two-dimensional vascular model in vitro can be established by using cellular raising pound and non-serum human-endothelial-cells substrate. (Chin J Ocul Fundus Dis, 2006, 22: 110-112)
PURPOSE: To investigate the activation and immune respones of lymphocytes in epiretinal membranes (ERMs)and subretinaI membranes (SRMs). METHODS: A panel of morioclonal antibodies against CD23 (activated B cell), CD25 (activated T cell), CD68(macrophages) and HLA-DR (human leukocyte antigen II antigen)were used for the study of 20 specimens of ERMs from 20 patients with proliferative vitreoretinopathy (PVR),traumatic PVR and secondary traction retinal detachment,and 2 SRMs from PVR and traumatic PVR, with positive and negative reaction specimens as controls. RESULTS:Four cases of ERMs were found to be CD23 and CD25 positive respectively,and one case of SRMs to be CD23 and CD25 positive respectively. All the specimens of ERMs and SRMs revealed CD68 and HLA-DR positive in this series. CONCLUSIONS :There might be an aberrant immunoreaction mediated by T and B cells in the ERMs and the SRMs,and they might play an important role in the patbogenesis of PVR,traumatic PVR and secondary traction retinal detachments. (Chin J Ocul Fundus Dis,1996,12: 147-150)