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.
Objective To observe the clinical effects of surgical treatment of retinal detachment(RD) caused by macular hole(MH) in high myopia. Methods The clinical materials of 149 eyes of 149 high myopia patients with RD caused by MH were reviewed. The cases were divided into complete posterior vitreous detachment (PVD) group and incomplete PVD group. The anatomic successful rate of operative treatment was evaluated according to the applications of vitrectomy surgery and non-vitrectomy surgery respectively in each group. The visual acuity changes after the operations were also observed.Results The anatomic successful rates were as follow: 77.9% in total cases with vitrectomy surgery and 25.9% with non-vitrectomy surgery (P<0.001); 75.5% in cases of incomplete PVD with vitrectomy surgery,and 15.0% with non-vitrectomy surgery (P<0.001); and in non-vitrectomy cases, 57.1 % in complete PVD group and 15.0% in incomplete PVD group (P=0.05). The rates of visual improvement were 68.6% in complete PVD group and 57.0% in incomplete group (P>0.05). Conclusions The scleral buckling combined with vitrectomy, gas intraocular tamponade and postoperative photocoagulation is an effective and optimal procedure for RD caused by MH in high myopia. (Chin J Ocul Fundus Dis,2003,19:8-10)
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.
ObjectiveTo observe the clinical efficacy of vitrectomy combined with modified inverted internal limiting membrane (ILM) flap covering technique for complicated macular hole (MH).MethodsThis is a retrospective case series. Twenty-one eyes of 20 patients who underwent vitrectomy combined with modified inverted ILM flap covering technique were enrolled in this study. Among these eyes, 9 eyes were idiopathic MH (IMH), with the mean basal diameter of (1 188.3±155.1) μm, minimum diameter of (626.9±86.2) μm, logarithm of the minimum angle of resolution (logMAR) best corrected visual acuity (BCVA) of 1.1±0.3; 2 eyes were MH with high myopia, with the mean basal diameter of (696.5±232.6) μm, minimum diameter of (259.0±69.3) μm, logMAR BCVA of 1.3; 5 eyes were high myopia MH with retinal detachment (RD), with the mean BCVA of 1.5±0.1; 3 eyes were rhegmatogenous RD (RRD) with MH, with the mean logMAR BCVA of 1.6; 2 eyes were MH after vitrectomy for RRD, with the mean basal diameter of (1 606.0±69.3) μm, minimum diameter of (909.0±387.5) μm, logMAR BCVA of 1.6. All patients received 23G or 25G vitrectomy after removal of posterior vitreous cortex intraoperatively. Indocyanine green staining assisted circle-wise ILM peeling was performed. ILM of diameter 1.5 disc-diameters around fovea was residual and loosened; perfluoronoctane assisted inverting superior or temporal residual ILM covering on macular hole. C3F8, gas or silicone oil tamponade was performed at the end. BCVA and hole closure were followed up for 1-4 months. C3F8, gas or silicone oil was tamponaded at the end. BCVA and hole closure were followed up for 1-4 months.ResultsMH of 21 eyes were closed after surgery. Nine IMH were closed at typeⅠ, with U shape closure in 7 eyes, V shape closure in 2 eyes. Two eyes of MH with high myopia, 3 eyes of RRD with MH, 2 eyes of MH after vitrectomy for RRD were closed at typeⅠ of U shape. Five eyes of high myopia MHRD including MH closure at typeⅠof U shape 3 eyes, typeⅡ of W shape 2 eyes. The mean logMAR BCVA of IMH, MH with high myopia, high myopia MHRD, RRD with MH, MH after vitrectomy for RRD eyes were 0.8±0.3, 0.9±0.2, 1.4±0.1, 0.7±0.3, 0.9±0.2, respectively. The mean postoperative logMAR BCVA in IMH eyes was improved compared preoperative one (P=0.02). There was no obvious change of pre-and postoperative logMAR BCVA in MH with high myopia, high myopia MHRD, RRD with MH, MH after vitrectomy for RRD eyes (P=0.18, 0.10, 0.11, 0.18).ConclusionVitrectomy combined with inverted ILM flap covering technique for complicated MH is an effective method to improve the success rate of MH closure and the visual function.