Macular hole is a retinal hole locates in macular fovea, and can be idiopathic, traumatic and high myopic. Although its etiology, disease course, treatment and prognosis varied from case to case, enforcing macularhole closure and retinal reattachment are challenges to all cases. Completely removal of premacular vitreous cortex is the key to successful repair, and inner limiting membrane (ILM) staining and peeling can greatly help the removal of those cortexes. Selections and usages of different dyes, methods of ILM peeling, and strategies to promote macular retinachoroidal adhesion warrant further study to improve treatment and prognosis of macular holes.
Appropriate classification and staging is the basis for the diagnosis and treatment of idiopathic macular hole (IMH). According to the appearance of vitreous and retina determined by optical coherence tomography, IMH can be classified as primary or secondary IMH, and IMH with or without vitreous attachment; Vitreous attachment can be further classified as vitreomacular adhesion or vitreomacular traction. According to the measured horizontal diameter, IMH can be classified as large, middle and small IMH. This new classification system and comprehensive parameters improve the traditional Ⅳ-stage theory, with a better description of the occurrence and development of IMH process. It should be used as the general principal to guide IMH classification, evaluation of surgical indications, selection of operative method, and estimation of surgical outcome. Ganglion cell damage caused by internal limiting membranes (ILM) peeling is the major concern in the IMH vitreoretinal surgery. For complicated and large IMH, inverted ILM flapping can improve the closure rate; ILM peeling and postoperative face-down posture are not necessary for IMH less than 250um in diameter. The current vitreoretinal surgery trend to treat IMH is personalized surgical treatment, following the existing evidence-based medical evidence, and based on the new classification information, ocular and systemic features of each patient.
Objective To investigate the method and the effects of the surgical treatment of massive subretinal hemorrhage and vitreous hemorrhage associated with age-related macular degeneration. Methods A retrospective study of 14 consecutive patients underwent a complete pars plana vitrectomy. Retinotomy was carried out for removing subretinal hemorrhage by using balanced salt solution. Complete air-fluid exchange and gas or silicone oil tamponade were performed in all patients. The follow-up period was within 3~7 months. Results Atrophy of eyeball in 2 eyes (14.3%) postoperatively. Improvement of corrected final visual acuity and anatomical retinal reattachment were achieved in 12 (85.7%) of the 14 eyes postoperatively. Seven days after operation, muddy-sand-hemorrhage in anterior chamber occurred in 4(28.6%)of the eyes and paracenteses of anterior chamber were performed for these eyes. Conclusion Surgical intervention should be applied in the eyes with the massive subretinal hemorrhage associated with age-related macular degeneration in order to avoid the affected eyes becoming atrophic due to the subsequent complication of vitreous hemorrhage, anterior chamber muddy sand hemorrhage,ghost cell-glaucoma or retinal detachment. (Chin J Ocul Fundus Dis,2000,16:217-219)
Purpose To investigate the therapeutic effect and complications of vitreous surgery in conjunction with laser treatment for high myopic retinal detachment with macular hole. Methods Thirtyfive consecutive cases(38 eyes) of high myopic retinal detachment with macular hole in our institute from January 1994 to August 1997 were analysed retrospectively.Among them,11 cases(12 eyes)were treated with vitreous operation and 24 cases (26 eyes)with vitreous operation combined with argon laser photocoagulation of the macular holes.All of the eyes operated on were followed up for more than 6 months,and with an average period of 21.7 months. Results In the 12 nonlaser treated eyes the macular hole recured in 5 eyes (41.7%),and the visual acuity was 20/200 or more in 6 eye(50.0%).In the 26 laser treated eyes,the macular hole recurred in 2 eyes(7.7%),new retinal tear appearred in 1 eye, and the visual acuity was 20/200 or more in 13 eyes(50.0%).The probability of recurrence of the macular hole between nonlaser and laser treated eyes was 0.024,and of retinal probability redetachment between them was 0.0487.There was no significant difference in between pre and postoperative visaul acuity. Conclusion Vitreous surgery in conjunction with laser photocoagulation for high myopic retinal detachment with macular hole might be helpful in improving the operative successful rate. (Chin J Ocul Fundus Dis,1998,14:199-201)
In this paper,the results of vitreous surgery in 25 cases of PVR D3 were analyzed.Pars plana vitrectomy and membrane peeling were performed in all eyes.The follow-up is more than 3 months.The anatomic successful rate was 68%.The authors suggest that vitrectomy combined with membrane peeling and intraocular tamponade was key for the treatment of PVR D3.Silicone oil tamponade may improve the patients'prognosis.The authors suggest that the etiologic factors may include the operative irritation,giant tear,trauma and vitreous hemorrhage.The time and the complications of the vitreous surgery were discussed. (Chin J Ocul Fundus Dis,1993,9:145-147)
Myopic traction maculopathy is a general term for a class of diseases including vitreomacular traction, foveoschisis, and macular hole. Posterior staphyloma plays a vital role in the occurrence and development of myopic traction maculopathy. At present, there is no uniform standard for the timing and method of surgery for myopic traction maculopathy. Based on OCT examination, the classification of traction maculopathy and the degree of visual function damage are important basis for judging the timing of surgery at this stage. Pars plana vitrectomy has been widely used in the treatment of myopic traction maculopathy, but for those with a long axis, the operation is complicated and the effect is not ideal. Macular buckling can effectively alleviate the traction caused by posterior staphyloma, but this surgery has a certain learning curve for clinicians, surgical materials need to be improved and perfected, and more evidence-based medical evidence is needed. We believe that with the continuous clinical understanding of myopic traction maculopathy, surgical treatment will be more rationalized and better treatment results will be achieved.
Vitrectomy is the preferred surgical method for diabetic retinopathy, especially in the stage of proliferative diabetic retinopathy. Vitrectomy for diabetic retinopathy involves all aspects of vitrectomy, which is one of the signs of maturity of retinal surgeons. With the application of minimally invasive vitrectomy and perioperative anti-neovascularization drugs, indications and timing of surgery, perioperative medication, management of vitreous, and whether combined with cataract surgery have changed greatly, and new understanding is needed. Evidence-based clinical research on the timing of diabetic retinopathy surgery and perioperative drug use should be carried out to provide a new theoretical basis for the surgical treatment of diabetic retinopathy.
Pathological myopia, characterized by progressive elongation of the axial length and formation of posterior staphyloma, is accompanied by chorioretinal irreversible degeneration. It is also the focus and biggest challenge of myopia control and blindness prevention. For managing progressive early-onset pathologic myopia and myopic traction maculopathy, episcleral pressurization of macula is a practical option. It can be divided into posterior scleral reinforcement surgery and macular buckling surgery according to the presence or absence of operative top pressure ridge after surgery, both of which are different in terms of implanted materials, procedures and indications. The implanted materials, procedures and indications are different between the two. Under the background of soaring prevalence of myopia, it is necessary to modify and cautiously popularize the techniques of episcleral pressurization of macula to provide high level clinical evidence for management of pathological myopia.