Purpose To observe the clinical features and visual acuity of the eyes with idiopathic macular holes. Methods We reviewed the clinical materials of 23eyes of 18 patients with idiopathic macular holes and the follow up results from 6 to 120 months. Results In the initial examinations of 22 eyes,the numbers of eyes with stagesⅠ-Ⅳ macular holes were5,4,10,3 eyes respectively,and funds fluorescein angiography showed there were focal transmission of choroidal fluorescein in 17 eyes (stagesⅡ~Ⅳ).Macular hole ocurred in one eyes during follow up.At the final examination of 23 eyes,the numbers of eyes with stages Ⅰ~Ⅳ macular holes were 2,2,9,8 eyes respectively .Full-thickness macular hole of 2 eyes closed naturally after posterior vitreous detachment.The time interval of the subjective visual loss on stage Ⅰ was 5-8 months,stageⅡ8-20 months,stageⅢ12-126 months ,and the average visual acuity on stageⅠwas 0.7,stage 0.55,stageⅢ0.08,and stage Ⅳ0.08 Conclusion Approximately 60% of impending (stage Ⅰ) hole progress to full thickness holes, the full thickness holes were usually enlarged and the visual acuity of affected eyes decreased as the natural course was prolonged . (Chin J Ocul Fundus Dis,1998,14:222-223)
ObjectiveTo observe the morphological characteristics of dome-shaped macula (DSM) and macular hole (MH) in high myopia by optical coherence tomography (OCT), to further explore the correlation between DSM and MH. MethodsA retrospective case-control study. From April 2021 to December 2023, 963 eyes of 503 patients with high myopia (myopic diopter ≥6.00 D) in Department of Ophthalmology of the Fourth Hospital of Hebei Medical University were enrolled in the study. The age of patients ranged from 5 to 89 years old, with the mean age of (48.91±16.69) years. Diopter was −6.00 to −26.00 (−10.49±3.15) D. All eyes were examined by OCT. The width and height of DSM, subfoveal choroidal thickness (SFCT), inner port diameter and base diameter of MH were measured by software on OCT. According to the OCT image features, DSM was divided into horizontal and vertical oval-shaped DSM, and symmetrical round DSM. According to the presence or absence of DSM, the eyes were divided into DSM group and non-DSM group. Then, the affected eyes with MH were divided into DSM with MH group and non-DSM with MH group. The incidence of DSM, the incidence of MH in the DSM group and the non-DSM group, the inner port diameter of MH, the base diameter of MH, SFCT, and the location of retinoschisis (RS) in the DSM with MH group and the non-DSM with MH group were observed. Independent sample t test or non-parametric Mann-Whitney U test was used for comparison between groups. Pearson correlation analysis was used to analyze the related factors of MH inner port diameter, base diameter and DSM width, height, height/width ratio. ResultsAmong the 963 eyes, the DSM group and the non-DSM group were 266 (27.6%, 266/963) and 697 (72.4%, 697/963) eyes. Compared with the non-DSM group, patients in the DSM group were older (Z=−11.302), had higher degree of myopia (Z=−8.944), thinner SFCT (Z=−16.244), and higher incidence of MH (χ2=8.828), and the differences were statistically significant (P<0.05). Compared with non-DSM with MH group, the patients in DSM with MH group were older (t=2.610), higher myopia diopter (t=3.593), and thinner SFCT (t=3.505), the differences were statistically significant (P<0.05). There was no significant difference in the number of eyes in the epiretinal membrane between the two groups (χ2=0.119, P=0.730). In the DSM with MH group, RS mostly occurred in the outer retina with a large range, while in the non-DSM with MH group, RS mostly occurred in the outer and inner retina with a small range. There was a statistically significant difference in the number of eyes at different positions of RS between the two groups (χ2=25.131, P<0.05). The results of correlation analysis showed that there was no correlation between the inner port and base diameter of MH and the width, height, height/width ratio of DSM (P>0.05). ConclusionsCompared with high myopia patients without DSM, patients with DSM are older, have more severe myopia and thinner SFCT. In DSM patients with MH, RS often occurs in the outer retina and has a large range. There was no significant association between DSM morphology and MH size.
Objective To evaluate the relevance of the macular hole index (MHI) and the visual outcomes of the idiopathic macular hole (IMH) after the retinal internal limiting membrane (ILM) peeling surgery.Methods Thirty IMH patients (30 eyes) undergoing vitrectomy and ILM peeling were included in this study. The IMH diagnosis was confirmed by best corrected visual acuity (BCVA), slit lamp microscope, indirect ophthalmoscope and optical coherence tomography (OCT). The central retinal thickness, the height and the base diameter of macular holes were measured by OCT. The MHI was the ratio of the height and the base diameter of macular holes. The patients were divided into two groups (MHIge;0.5 group and MHI<0.5 group) according to the MHI.The post-surgery follow-up was three to 24 months with an average of 10 months. Spearman correlation analysis was performed between BCVA (pre and post-surgery), age, disease duration and MHI. The differences in BCVA after surgery between the two MHI groups was further evaluated by independent samplest-test for quantitative data.Results All the macular holes in 30 eyes closed after surgery, closure rate was 100%. Postoperative BCVA was correlated with MHI by Spearman analysis (r=0.852,P<0.001), but not correlated with age (r=0.001, P=0.804) and disease course (r=-0.001,P=0.579). Postoperative BCVA was better in the MHIge;0.5 group (t=5.552,P<0.001). Conclusions The postoperative visual outcome of IMH patients was correlated with the MHI. MHI can be used as a prognostic factor of postoperative visual outcomes for IMH patients.
Internal limiting membrane peeling is now widely used in the treatment of vitreoretinal diseases, such as idiopathic macular hole, epiretinal membrane, macular edema, traumatic retinopathy, retinoschisis, and optic pit, especially macular diseases. Due to the attention paid to the physiological function of the internal limiting membrane, there is still controversies about whether the internal limiting membrane is removed, and the area and the way of the removal in vitrectomy of the above diseases. Major complications have been reported in literature: effects on internal retinal structure, retinal and choroidal blood flow, retinal electrical activity, potential retinal toxicity of stain, changes in the anatomy of macular area, changes in visual field and potential damage to vision. In this paper, we reviewes the complications of internal limiting membrane peeling in the treatment of macular hole and epiretinal macular membrane.
Full thickness macular hole (FTMH) is a rare complication of retinal vein occlusion (RVO). These have different characteristics, and may associate with complications of RVO, such as cystoid macular edema and epiretinal membrane, and treatments like intravitreal injection. Although anatomical closure is often obtained with vitrectomy and inner limiting membrane peeling, visual improvement is often variable. Regularly follow-up, medical examination, and vitrectomy can improve the outcomes of patients. In the future, randomized controlled clinical trials with larger sample size are still needed to further explore the pathogenesis, clinical characteristics and treatment methods of FTMH after RVO, so as to improve the clinical prognosis of these patients.
Purpose To evaluate the surgical effect of idiopathic macular hole (IMH),with optical coherence tomography (OCT). Methods To measure the diameter of holes and hole halos,the thickness of hole in edge,the changes of hole pattern in 19 cases (19 eyes) with IMH using OCT. Results By quantitatively measuring,OCT showed that after surgery the mean hole diameter lessened from (570.95plusmn;264.59 )mu;m to (337.05plusmn;335.95)mu;m.The mean diameter of hole halo lessened from (1043.53plusmn;278.80)mu;m to (695.00plusmn;483.00)mu;m and the mean thickness of the hole edge thinned from (389.78plusmn;60.58)mu;m to (298.78plusmn;109.80)mu;m.In 17 eyes the holes become closed or reduced in size or the hole halo,and thinned in hole edge.The anatomic successful rate of the surgery is 89%. Conclusion OCT can objectively,accurately and effectively judge the anatomic effect of IMH surgery. (Chin J Ocul Fundus Dis,2000,16:71-138)
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 evaluate the successful rate of surgical treatment of retinal detachment due to macular hole in high myopia, and to analyze the relative reasons. Methods Eleven eyes of 11 high myopic patients with retinal detachment due to macular hole underwent vitrectomy combined with the adjunct of 18% C3F88or silicone oil. Strict prone position was conducted at least 2 weeks postoperatively. Results Macular hole closed and retina reattached in 10 eyes. Visual acuity was increased in 10 eyes, and no change in 1 eye. Postoperative complications mainly included nuclear sclerosis of the lens(1 eye), intraocular pressure elevation (1 eye), fibrosis exudates (2 eyes),and diplopia (1 eye). Conclusion The use of vitrectomy combined with the adjunct of 18% C3F8or silicone oil is a safe and effective method in treating retinal deta chment due to macular hole in high myopia. Preoperative careful examination of o cular fundus, rational surgical design, and better surgical expertise are basic factors in treating this disease. (Chin J Ocul Fundus Dis, 2001,17:90-92)
PURPOSE:To inquire into diagnosis and differentiation method for full thickness macular hole,lamellar macular hole and cystoid macular degeneration. METHODS:Amsler grid,Watzke' s sign and laser aiming beam test were performed in the patients:30 with full-thickness macular hole, 12 with lamellar macular hole and 8 with cystoid macular degeneration. The results were analyzed statistically with method of four table precise probability. RESULTS:The positive rate of Amsler grid,watzke's sign and laser aiming beam test was 100% in ail of the full thickness macular holes,and it was 85%,65%and 0 in lamellar macular holes and cystoid macular degeneration respectively. CONCLUSION: Amsler grid testing was sensitive but not specific,Watzke's sign was more sensitive and specific,and the laser aiming beam tesl was extremely sensitive and specific in clinical diagnosis of full thickness macular hole. (Chin J Ocul Fundus Dis,1996,12: 208-210)
Müller cells are glial cells of the retina, whose major processes cross the internal and external limiting membranes of the retina, maintaining the function and metabolism of retinal photoreceptors and neurons. Their structure and function are closely related to the development of macular hole (MH). Müller cells are involved in the formation and recovery of MH from the aspect of traction and protein, and their morphology and biological function also influence the regression of MH. The current treatment modality for MH is vitrectomy combined with internal limiting membrane (ILM) peeling, in which Müller cells play a dual role after ILM peeling in different stages of MH. And its potential to re-acquire a progenitor-like state following retinal injury with the ability to proliferate and generate new neurons making it a current research hot topic, which can be a reference and inspiration for clinical treatment.