Refractory macular hole (MH) has lower surgical anatomical closure rate and poor recovery of visual acuity due to its clinical characteristics. Refractory macular hole includes unclosed MH, reopening MH, large MH, high myopic MH, traumatic MH and secondary MH. Some modified surgeries were employed to improve the surgical results. Inverted internal limiting membrane flap, autologous transplantation of the internal limiting membrane, laser photocoagulation, extended internal limiting membrane peeling, arcuate retinotomy, lens capsular flap transplantation and mesenchymal stem cell transplantation can improve the prognosis partially. Loosening MH traction, providing a scaffold for Müller cell proliferation and promoting photoreceptor reconstruction will be the key points in future.
ObjectiveTo observe the therapeutic effect of segmental scleral buckling and vitrectomy with/without lensectomy on the retinopathy of prematurity (ROP) stage 4a, 4b and 5. MethodsOne hundred and thirty-four ROP infants (181 eyes) diagnosed as stage 4a, 4b and 5, and performed with segmental scleral buckling or vitreous with/without lensectomy were retrospectively analyzed. The operated 4a-, 4b- and 5- stage eyes were 40, 51 and 90 eyes. The operational method depended on the location and severity of fibrovascular membrane. Of 181 eyes, segmental scleral buckling was referred for 37 eyes which include 23 eyes with 4a stage and 14 eyes with 4b stage; vitrectomy was referred for 50 eyes which include 14 eyes with 4a stage, 29 eyes with 4b stage and 7 eyes with 5 stage; vitrectomy with lensectomy was referred for 94 eyes which include 3 eyes with 4a stage, 8 eyes with 4b stage and 83 eyes with 5 stage. The effect was classified as success, improved and failure. Failure includes lost eye. Follow-up for 4a, 4b and 5 stage patients are 34, 31 and 29 months respectively. ResultsSegmental scleral buckling was referred for 37 eyes, success in 23 eyes (62.16%), improved in 11 eyes (29.73%), failure in 3 eyes (8.11%). Vitrectomy was referred for 50 eyes, and success in 20 eyes (40.00%), improved in 22 eyes (44.00%), and failure in 8 eyes (16.00%). In the total of 94 eyes underwent vitrectomy with lensectomy, 20 eyes was success (21.28%), improved in 17 eyes (18.08%), failure in 57 eyes (60.64%). In 40 stage 4a eyes, 33 successes (82.50%), 6 improved (15.00%) and 1 failure (2.50%). In 51 stage 4b eyes, 11 successes (21.57%), 30 improved (58.82%) and 10 failures (19.61%). For 90 stage 5 eyes, 14 successes (17.50%), 19 improved (23.75%) and 57 failures (71.25%). The therapeutic effect of segmental scleral buckling for stage 4a was better than that for stage 5 (χ2=6.707,P=0.035). The difference of therapeutic effect of vitrectomy for different stage was significant (χ2=21.010,P=0.000); stage 4a was the best; stage 4b was the second, stage 5 was the worst. The therapeutic effect of vitrectomy with lensectomy for stage 5 was worse than that for stage 4a and 4b (χ2=16.066,P=0.003). ConclusionThe surgery patterns of ROP was determined based on the disease severity, the surgery effects of stage 4a and 4b were better than stage 5, which had nothing to do with the surgical procedures.
OBJECTIVE:To evaluate the effect and causes of failure of vitreoretinal(VR)surgery in rhegmatogenous retinal detachments associated with choroidal detachment. METHOD:Reviewing the operative effects of the vitreoretinal surgeries in 61patients(61 eyes)with rhegmatogenous retinal detachment associated with choroidal detachment and PVR in this hospital.Vitrectomy,peeling of preretinal membranes,fluid/air echange and inert gas,silicone oil tamponade were used in thesepatients according to need. RESULTS:On discharge from the hospital,the postoperative effect obtained in 40 case(65.57%),and out of 35 eyes receiving the inert gas tamponade 26(74.3%) got effective pesults.Fourteen cases were followed up for 3 months(averge 9.5 months)and 10(7.4%)of themrevealed stable.The factors of influencing VRsurgery seemed to be the range of choroidal detachments,numbers of opreative times,the inert gas tamponede and the time of corticosteroid application.The causes of failure of opreation might relate to severe and antrior PVR,and giant tears. CONCLUSIONS:The VR surgery was thought to be profitable in treating rhegmatogenous retinal detachment associated with choroidal detachment and PVR. (Chin J Ocul Fundus Dis,1996,12: 16-19)
ObjectiveThe aim of this study is to observe the clinical characteristics and surgical effects of macular hole retinal detachment in high myopia patients with pars plana vitrectomy (PPV) and secondary internal limiting membrane (ILM) peeling. MethodsThis was a retrospective study. The clinical data of 15 patients (15 eyes)with macular hole retinal detachment and high myopia, who underwent primary PPV and secondary ILM peeling, were analyzed, including disease history, refraction diopter, ocular axis length, posterior scleral staphyloma, BCVA, macular reattachment and macular hole heeling. There were 3 males (3 eyes) and 12 female (12 eyes), the average age was (60.80±5.85)years. All patients were examined by best corrected visual acuity (BCVA), slit lamp microscopy with 90D pre-lens, indirect ophthalmoscopy, A scan and optical coherence tomography (OCT). After the first PPV and silicone oil tamponade, a shallow retinal detachment around the macular hole, especially around the scleral staphyloma was detected by OCT. During the 2nd surgery to remove the silicone oil, ILM peeling and C3F8 tamponade were performed. ResultsThe average refraction diopter was (-12.6±1.86) D, the average ocular axial length (29.82±0.993) mm and the average disease duration was (5.20±1.24) months. All eyes had total retinal detachment of all four quadrants, choroid detachment and macular choroidal atrophy, and type Ⅱ Curtin posterior scleral staphyloma. After the second surgery, all had retina attached by fundus examination. OCT examination indicated that macular hole closure in 7 eye, macular hole attached and retinal attached in 8 eyes. Their BCVA improved after both the first and second surgery (P=0.000), the BCVA after second surgery was better than that after first surgery (P=0.038). ConclusionsThe clinical characteristic of our series of patients were as follows: long history, with choroidal detachment and type Ⅱ Curtin posterior scleral staphyloma. All 15 eyes showed retinal attached after secondary ILM peeling. The secondary ILM peeling and C3F8 tamponade may improve the visual outcome and retinal reattachment rate.
The reattachment rate, macular hole (MH) closure rate, visual acuity improvement and re-detachment rate of MH retinal detachment (MHRD) of high myopia are not satisfactory owing to long axis oculi, posterior scleral staphyloma and macular atrophy. At present, minimally invasive vitrectomy surgery combined with the internal limiting membrane flap technique has become popular in the treatment of MHRD, as it can promote MH closure, and significantly improve the outcome of MHRD. However if this method can improve the postoperative visual function is still controversial. The advantage of this technique is that the loosened internal limiting membrane is applied to cover the MH surface to form a scaffold structure similar to the basement membrane. It can stimulate Müller cell gliosis more effectively, and promote tissue filling in the MH which results in MH closure. It can also promote retinal reattachment and reduce the likelihood of retinal re-detachment. This technique is expected to be a standard surgical method for the treatment of MHRD of high myopia in the future. The inserted internal limiting membrane flap technique is relatively easy to perform, induces stable flaps by simple procedures, and can be an essential complement procedure of the inverted internal limiting membrane flap technique. In order to reduce the recurrence rate in the future, it is necessary to further define the indications of different surgical methods and the predictive effects of MH healing mode on the success rate and visual function recovery.
ObjectiveTo evaluate the assistant effect of intraoperative OCT (iOCT) in vitreous retinal surgery for macular disease.MethodsA retrospective case study. A total of 71 patients (71 eyes) with macular disease who underwent vitrectomy in Eye Hospital of Wenzhou Medical University at Hangzhou from June 2015 to September 2016 were collected. There were 24 males (24 eyes) and 47 females (47 eyes), aged from 25 to 78 years, with the mean age of 63.35±10.01 years. Among 71 eyes, there were 26 eyes with idiopathic macular hole, 42 eyes with idiopathic epiretinal membrane, 3 eyes with vitreomacular traction syndrome. The examination of iOCT was performed on the patients during 23G minimally invasive vitreoretinal surgery combined with internal limiting membrane peeling. Use observational method to compare the difference between result of iOCT and observation under the microscope, record the change of treatment strategy.ResultsEight eyes (11.27%) iOCT results were different from the surgeon’s observation, which including 5 eyes (62.50%) with idiopathic macular hole, 2 eyes (25.00%) with idiopathic epiretinal membrane, 1 eye (12.50%) with vitreomacular traction syndrome. The treatment strategy was changed in 8 eyes (11.27%) based on iOCT result, which including 5 eyes (62.50%) with idiopathic macular hole, 2 eyes (25.00%) with idiopathic epiretinal membrane, 1 eye (12.50%) with vitreomacular traction syndrome.ConclusionsiOCT can help the surgeon find some subtle morphological changes which can hardly be seen by eyes. The surgeon can change and optimize the treatment strategy based on the result of iOCT.
Myopic foveoschisis (MF) has mild early symptoms, however, its course is progressive. When the secondary macular detachment or macular hole occurs, it can cause severe vision loss. Therefore, it is generally believed that MF patients should undergo surgical intervention early after the onset of symptoms to prevent them from further developing into a macular hole or macular hole retinal detachment.It is generally believed that the traction of the vitreous cortex and posterior scleral staphyloma to the retina plays an important role in the occurrence and development of MF. The operation mode is divided into vitreoretinal surgery and macular buckling, the former release the retinal traction via the vitreous body and the latter reattaches the retina via the extrascleral approach. There is no consensus on whether to perform internal limiting membrane peeling and gas tamponade in vitreoretinal surgery and the fovea-sparing internal limiting membrane peeling has become a hot topic in recent years. Compared with vitreoretinal surgery, macular buckling can release the traction of the retina caused by posterior scleral staphyloma, but it cannot relieve the traction in the tangential direction of the retina. Vitreoretinal surgery and extrascleral surgery seems to make up the shortcomings of both, however, the effect of treatment on patients still needs further verification. In clinical work, it is necessary to conduct individualized analysis of MF patients, weigh the advantages and disadvantages of each operation, and choose the most suitable operation mode for patients with different conditions. In the future, the emphasis of our work is to develop operation mode with great curative effect and less complications.
Objective To observe the short-term intraocular pressure after 25G+ pars plana vitrectomy (PPV) and analyze the possible influencing factors in rhegmatogenous retinal detachment (RRD) and proliferative diabetic retinopathy (PDR) eyes. Methods This is a retrospective case-control study. A total of 160 patients (163 eyes) of RRD and PDR who underwent 25G+ PPV were enrolled in this study. There were 88 males (89 eyes) and 72 females (74 eyes), with the mean age of (50.37±13.24) years. There were 90 patients (92 eyes) with RRD (the RRD group) and 70 patients (74 eyes) with PDR (the PDR group). Best corrected visual acuity (BCVA) and intraocular pressure (IOP) were performed on all the patients. The BCVA was ranged from hand motion to 0.6. The average IOP was (12.61±4.91) mmHg (1 mmHg=0.133 kPa). There were significant differences in crystalline state (χ2=9.285, P=0.009), IOP (χ2=58.45, P=0.000), history of PPV (χ2=4.915, P=0.027) and hypertension (χ2=24.018, P=0.000), but no significant difference in sex (χ2=0.314, P=0.635) and age (χ2=5.682, P=0.056) between the two groups. A non-contact tonometer has been used to measure IOP on postoperative day 1 and 3. The postoperative IOP distribution has been divided into five groups: severe ocular hypotension (≤5 mmHg), mild ocular hypotension (6 - 9 mmHg), normal (10 - 21 mmHg), mild ocular hypertension (22 - 29 mmHg), severe ocular hypertension (≥30 mmHg). Logistic regression analysis has been used to analyze the risk and protective factors. Results On the first day after surgery, there were 21 eyes (12.9%) in mild ocular hypotension, 96 eyes (58.9%) in normal, 22 eyes (13.4%) in mild ocular hypertension and 24 eyes (14.7%) in severe ocular hypertension. On the first day after surgery, there were 18 eyes (11.0%) in mild ocular hypotension, 117 eyes (71.7%) in normal, 23 eyes (14.1%) in mild ocular hypertension and 5 eyes (3.1%) in severe ocular hypertension. There was no significant difference of IOP distribution between the two groups (Z=−1.235, −1.642; P=0.217, 0.101). The results of logistic regression analysis showed that silicone tamponade was a risk factor for ocular hypertension in PDR eyes on the first day after surgery [odds ratio (OR)=15.400, 95% confidence interval (CI) 3.670 - 64.590; P<0.001], while intraocular lens was the risk factor for ocular hypotension in PDR eyes on third day after surgery (OR=19.000, 95%CI 1.450 - 248.2; P=0.025). As for RRD eyes, the ocular hypotension before surgery was a risk factor for ocular hypertension on the third day after surgery (OR=3.755, 95%CI 1.088 - 12.955; P=0.036). For all eyes, silicone tamponade (OR=0.236, 95%CI 0.070 - 0.797), air tamponade (OR=0.214, 95%CI 0.050 - 0.911) and inert gas tamponade (OR=0.092, 95%CI 0.010 - 0.877) were protective factors for ocular hypotension on the first day after surgery (P=0.020, 0.037, 0.038); silicone tamponade was protective factor for ocular hypotension on the third day after surgery (OR=0.249, 95% CI 0.066 - 0.94, P=0.040); while aphakic eyes was the risk factor for ocular hypotension on third day after surgery (OR=7.765, 95% CI 1.377 - 43.794, P=0.020). The ocular hypotension before surgery was a risk factor for ocular hypertension on the third day after surgery (OR=4.034, 95% CI 1.475 - 11.033, P=0.007). Conclusions The abnormal IOP is common after 25G+ PPV with a rate from 28.3% to 31.1%. Silicone tamponade, air tamponade and inert gases tamponade are protective factors for postoperative ocular hypotension, aphakic eye is risk factor for postoperative ocular hypotension. Ocular hypotension before surgery and silicone oil tamponade are risk factors for postoperative ocular hypertension.
ObjectiveTo observe the histopathological changes in peripheral retinal lesions under intraoperative optical coherence tomography (iOCT). Methods A retrospective case series study. Eighty-eight patients (194 eyes) who underwent vitreoretinal surgery in the Department of Ophthalmology at the East Ward of the First Affiliated Hospital of Zhengzhou University from October 2021 to May 2022 in 94 eyes were included in the study. Among them, 49 cases were male and 39 cases were female, with the mean age of (50.93±17.55) years. Ninety-four eyes included 32 eyes with retinal detachment, 6 eyes with proliferative diabetic retinopathy, 28 eyes with vitreous hemorrhage, 8 eyes with ocular trauma, 14 eyes with the macular lesion, 1 eye with uveitis, 1 eye with family exudative vitreoretinopathy (FEVR), 1 eye with acute retinal necrosis (ARN), and 3 eyes with lens dislocation. All affected eyes were examined with iOCT during vitreoretinal surgery. The iOCT scanning of the peripheral retina was performed with the help of episcleral pressure. The pre-equatorial and serrated edge anterior and posterior of retinas were scanned according to the characteristics of different fundus diseases. Various abnormal fundus manifestations were recorded. Results In 94 eyes, 53 eyes (56.38%, 53/94) have different types of retinopathy in the peripheral retina. Of these, 7 eyes (7.45%) have retinal cystoid degeneration; 19 eyes (20.21%) have lattice degeneration; and 8 eyes (8.51%) have pigment degeneration; 9 eyes (9.57%) have pavement-like degeneration; 7 eyes (7.45%) have small occult holes; 1 eye (1.06%) has familial exudative vitreoretinopathy (FEVR) serrated edge "dyke-like" proliferative degeneration; 4 eyes (4.26%) have vitreous and retinopathy adhesions; and one eye (1.06%) has ARN. Conclusion With clear refractive media, iOCT can provide clear scans of different peripheral retinal lesions.
Objective To analyze the risk factors for persistent corneal epithelial defects (PCED) after pars plana vitrectomy (PPV) in patients with proliferative diabetic retinopathy (PDR). Methods A total of 201 PDR patients (201 eyes) who received PPV were enrolled in this retrospective study. There were 86 males (86 eyes) and 115 females (115 eyes). The patients aged from 30 to 81 years, with the mean age of (57.94±9.65) years. Among them, 159 patients were ≥50 years of age, and 42 patients were <50 years of age. There were 36 patients with HbA1c <7.0%, 165 patients with HbA1c ≥7.0%. There were 93 right eyes and 108 left eyes. There were 93 right eyes and 108 left eyes. The diabetic retinopathy stages were as follows: stage Ⅳ in 24 eyes, stage Ⅴ in 78 eyes and stage Ⅵ in 99 eyes. The operation time was ranged from 1 to 4 hours, with an average of 2 hours. Among the 201 eyes, corneal epidermis were scraped on 25 eyes; 70 eyes were combined with cataract surgery; a laser photocoagulation count <1000 points was performed in 78 eyes, and >1000 points were performed in 123 eyes. Sixty-one eyes involved intravitreal silicone oil tamponade, 18 eyes involved intravitreal tamponade with C3F8, and 122 eyes were not involved with intraocular tamponade. Postoperative persistent intraocular hypertension was defined as an intraocular pressure (IOP) ≥21 mmHg (1 mmHg=0.133 kPa) after PPV with necessary treatment using IOP-lowering medications for ≥2 weeks. The diagnostic criteria for corneal epithelial defects were taken from the Expert Consensus on Clinical Diagnosis and Treatment of Corneal Epithelial Defect in China (2016). The corneal epithelial defect was diagnosed as PCED if it was treated with common methods such as a lacrimal substitute or corneal contact lens, but showed no improvement and no signs of healing for ≥2 weeks. The incidence of PCED after eye surgery was recorded and its related risk factors were analyzed. A multivariate logistic regression was used to analyze the risk factors for PCED, which were expressed as a odds ratio (OR) and a 95% confidence interval (CI). Results Of 201 eyes, 16 eyes (7.96%) presented with PCED after surgery and 185 eyes (92.04%) with no PCED. There was no significant difference in the age, sex, and eyes between the patients with or without PCED (χ2=6.548, 0.927, 0.044; P=0.011, 0.336, 0.833). A multivariate logistic regression showed that intraoperative epithelial debridement (OR=13.239, 95%CI 2.999−58.442, P=0.001), intraoperative treatment in combination with cataract surgery (OR=7.448, 95%CI 1.975−28.091, P=0.003), intravitreal tamponade with C3F8 (OR=11.344, 95%CI 2.169−59.324, P=0.004), and postoperative persistent intraocular hypertension (OR=10.462, 95%CI 2.464−44.414, P=0.001) were risk factors for PCED after PPV. Conclusion Intraoperative epithelial debridement, intraoperative treatment in combination with cataract surgery, intravitreal tamponade with C3F8, and postoperative persistent intraocular hypertension are risk factors for PCED in patients with PDR after PPV.