Objective To analyze the pathogeny of vitreous re-hemorrhage in proliferative diabetic retinopathy (PDR) after vitrectomy, and to evaluate the treatment effects. Methods The clinical data of 315 eyes of 302 patients with PDR who had undergone vitrectomy were retrospectively analyzed. Thirty-two eyes with vitreous re-hemorrhage after the treatment had undergone vitrectomy again. The follow-up duration was 3-48 months (average 12 months). Results The occurrence of vitreous hemorrhage after vitrectomy was 10%. The reasons included fibrovascular ingrowth at the sclera incision (28%), residual neovascularization membrane or inappropriately treated vascular stump on the surface of optic nerve (19%), insufficient photocoagulation on retina (22%), residual epiretinal neovascularization membrane (9%), retinal vein occlusion (6%), and ocular trauma (16%). Re-hemorrhage occurred 1-210 days (average 51 days) after vitrectomy. The patients with re-hemorrhage underwent cryotherapy for fibrovascular at the incision site, removal of residual neovascularization membrane on the optic nerve and retina, electrocoagulation of the vascular stump, complementary retinal photocoagulation and binding up of two eyes. After the re-treatment, the visual acuity increased in 91% and decreased in 9%. The postoperative complications mainly included vitreous re-hemorrhage, posterior synechia of the iris, lens sclerosis, and delayed healing of corneal epithelium. Conclusion The main reasons of vitreous re-hemorrhage after vitrectomy in patients with PDR include fibrovascular ingrowth at sclera incision, residual neovascularization membrane or inappropriately treated vascular stump on the surface of optic nerve, insufficient photocoagulation on retina, residual epiretinal neovascularization membrane, retinal vein occlusion, and ocular trauma. The efficient methods in preventing and treating re-hemorrhage after vitrectomy are appropriate management of insection sites, completely removal of residual neovascularization membrane on the optic nerve and retina, electrocoagulation of the vessel stump and sufficient retinal photocoagulation. (Chin J Ocul Fundus Dis,238-240)
Objective To evaluate the relative factors of effect of vitrectomy on corneal endothelial cells. Methods Retrospective analysis of the results of corneal endothelium microscopy performed on 213 eyes of 213 patients undergone vetrectomy operations including single vitrectomy (78 eyes), vitrectomy combined with cataract extraction (135 eyes), silicone oil injection (34 eyes), and C3F8 injection (53 eyes) before and after 1 week, 1 and 3 moths of these surgical procedures. Results There was no significant difference between pre- and postoperative corneal endothelium density in single vitrectomy group and vitrectomy combined with cataract extraction with posterior capsule integrity group (Pgt;0.05). The corneal endothelium density significantly decreased postoperatively in C3F8or silicone oil injection group with broken posterior capsule (Plt;0.05). Conclusion C3F8 and silicone oil may damnify corneal endothelium in patients undergo vitrectom y combined with cataract extraction with broken posterior capsule. (Chin J Ocul Fundus Dis,2004,20:101-103)
Objective To evaluate the change of blood sugar in diabetic patients after vitrectomy and analyze the relative reasons. Methods Nineteen diabetes II patients (20 eyes) who underwent vitrectomies received the tests of blood sugar preoperatively, and 1~2 hours, 1, 3, and 5 days postoperatively. Analysis of variance, apaired Studentrsquo;s t-test, and correlation analysis were used to analyze the change of postoperative blood sugar and correlation between postoperative blood sugar change and its relative factors. Results Postoperative blood sugar increased significantly compared with the preoperative one (Plt;0.05),reached the peak 1~2 hours postoperatively, and reached almost the preoperative level 5 days postoperatively (Pgt;0.05). There was a positive correlation between blood sugar increase and operation time, preoperative blood sugar level, and diabetic duration (Plt;0.05). Postoperative blood sugar was relative to potentiated anesthesia. Conclusion There is a regularity that blood sugar increases just postoperatively and reaches the preoperative level 5 days postoperatively. The relative factors to blood sugar change include preoperative blood sugar level, diabetic duration, operation time, and potentiated anesthesia. (Chin J Ocul Fundus Dis,2000,16:157-159)