ObjectiveTo objectively quantitative assess the visual quality in patients with myopic foveoschisis (MF) using a double-pass optical quality analysis system (OQASⅡ). MethodsSixty-two subjects participated in this cross-sectional, observational study, who were divided into three groups based on the pathologic conditions including myopic foveoschisis group (MFG), myopic control group (MCG) and normal control group (NCG). Measurements with OQASⅡwere performed for the modulation transfer function cut off frequency (MTF cut-off), the Strehl ratio (SR) and the objective scatter index (OSI). Visual data were analyzed using ANOVA and Pearson's correlation accompanied by logMAR BCVA and axial length (AL). ResultsThe mean values for MTF cut-off, SR and OSI of MFG, MCG and NCG were 18.18±4.81, 0.13±0.03, 3.50±0.44; 22.87±2.66, 0.14±0.02, 2.42±0.29; 33.68±4.70, 0.23±0.02, 1.68±0.20 respectively, and statistical difference were proved except SR between MFG and MCG, or BCVA between MCG and NCG (P < 0.05). LogMAR BCVA and AL have negative correlations to MTF cut-off (r=-0.928, -0.658; P < 0.05) and SR (r=-0.577, -0.893; P < 0.05) with high coefficients in MFG. Log MAR BCVA has negative correlations to MTF cut-off and SR (r=-0.659, -0.806; P < 0.05) in MCG. Log MAR BCVA has negative correlations to MTF cut-off and SR (r=-0.606, -0.602; P < 0.05) and positively correlated to OSI (r=0.561, P < 0.05) in NCG. ConclusionsThe mean value of BCVA, MTF cut-off, SR, OSI of myopic foveoschisis patients were lower than those myopic patients without foveoschisis and normal people. there exists a significant negative correlation between Log MAR BCVA, AL to MTF cut-off and SR. Compared with myopic and normal subjects, myopic foveoschisis have lower BCVA, MTF cut-off, SR but higher OSI.
Dome-shaped macula (DSM) of high myopia has been described as an inward convexity or bulge of the macular within the concavity of the posterior staphyloma in highly myopic eyes, with the bulge height over than 50 μm, which can be observed by optical coherence tomography. There are three patterns of DSM, including the typical round dome, the horizontally oriented oval-shaped dome and the vertically oriented oval-shaped dome. The pathogenesis of DSM development remains unclear, several hypotheses have been suggested, such as localized choroidal thickening in the macular area, relatively localized thickness variation of the sclera under the macula, resistance to deformation of sclera staphyloma, ocular hypotony and tangential vitreoretinal traction. Vision-threatening macular complications of DSM including serous retinal detachment, choroidal neovascularization, foveoschisis and retinal pigment epithelial atrophy. Clinically, asymptomatic patients with DSM mainly take regular follow-up observation. Appears serous retinal detachment and significant visual impairment, treatment with half-dose photodynamic therapy, supplementary of laser photocoagulation or oral spironolactone may have a beneficial effect. However, more large clinical studies are required to confirm the exact efficacy of these treatments.
Peripapillary intrachoroidal cavitation (PICC) is a common pathological change observed in high myopia. The exact pathogenesis of PICC is still unclear. Expansion and mechanical stretching of the peripapillary sclera, breakage and defect in the retina near the border of the myopic conus and communication between intrachoroidal cavity and the vitreous space may be important segments during the development of PICC. Color fundus photography shows a localized and well-circumscribed peripapillary lesion with yellow-orange colour, often accompanied by fundus changes, such as myopic conus excavation, optic disc tilting and inferotemporal retinal vein bending at the transition from the PICC to the myopic conus. However, the PICC lesion is not easy to be recognized in the fundus photography. Fluorescein angiography shows early hypofluorescence and later progressively staining in the lesion. Indocyanine green angiography shows hypofluorescence throughout the examination. Optical coherence tomography (OCT) is vital in diagnosing PICC. Hyporeflective cavities inside the choroid, sometimes communicating with the vitreous chamber, can be observed in OCT images. OCT angiography indicates lower vessel density or even absence of choriocapillary network inside or around PICC lesions.
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 observe the clinical effects of pars plana vitrectomy (PPV) combined with internal limiting membrane peeling (ILMP) for macular hole (MH) and macular retinoschisis in high myopic eyes, and to analyze factors affecting the MH closure rate.MethodsThis is a retrospective case study. 21 high myopic patients (22 eyes) with MH and macular retinoschisis were enrolled in this study. All eyes were examined for best corrected visual acuity (BCVA), intraocular pressure, slit lamp microscope, indirect ophthalmoscope, A and/or B-scan ultrasound, optical coherence tomography and visual electrophysiological examination. The BCVA was ranged from finger counting to 0.2. The axial length (AL) was ranged from 26.00 to 31.00 mm, with an average of 27.47 mm. Among 22 eyes, AL was between 26.00 mm to 27.00 mm in 9 eyes, 27.10 mm to 28.00 mm in 5 eyes, 28.10 mm to 29.00 mm in 3 eyes, 29.10 mm to 30.00 mm in 3 eyes, and longer than 30.00 mm in 2 eyes. The diameter of MH was ranged from 227 µm to 597 µm and with an average of 432 µm. Among them, the minimum diameter was between 200 µm to 400 µm in 4 eyes, 401 µm to 450 µm in 13 eyes, 451 µm to 500 µm in 3 eyes, 501 µm to 600 µm in 2 eyes. All the eyes were treated with PPV combined with ILMP surgery. The average follow-up time was 17 months after surgery. The efficacy was determined at the final follow up, including the MH closure, the state of macular retinoschisis and the BCVA. MH closure rate with different MH diameters and different AL were compared and analyzed.ResultsDuring the final follow-up, MH were fully closed in 17 eyes (77.3%), bridge-closed in 4 eyes (18.2%) and not closed in 1 eye (4.5%). Retinoschisis was resolved in 19 eyes (86.4%), partially resolved in 2 eyes (9.1%) and not changed in 1 eye (4.4%). MH with smaller diameter had higher MH closure rate (χ2=12.036, P=0.032). MH with longer AL had lower MH closure rate (χ2=16.095, P=0.003).The final BCVA was ranged from finger counting to 0.25. Among 22 eyes, BCVA or metamorphopsia were improved in 9 eyes (40.9%), stable in 8 eyes (36.4%). BCVA was reduced and metamorphopsia was more severe in 5 eyes (22.7%).ConclusionsPPV combined with ILMP is a safe and effective surgical treatment for MH (with minimum diameter ≤600 μm) and macular retinoschisis in high myopic eyes. After surgery, MH was closed and retinoschisis was resolved in most patients. The major factors affect the MH closure were the minimum diameter of MH and AL.
Pathological myopia can induce choroidal neovascularization (PM-CNV). The potential risk factors include ageing, long axial length of the eyeball, thinning of subfoveal choroidal thickness, fundus atrophy spot and lacquer crack. These factors may induce atrophy of retinal pigment epithelial cells (RPE) and hypoxia, resulting in vascular endothelial growth factors (VEGF) secretion by outer retina. The lesion type, location and activity of PM-CNV can be determined by fundus fluorescein angiography. The features of PM-CNV on optical coherence tomography include strong reflective area close to RPE with very small amount of subretinal fluid (active stage), surface strong reflection with signal attenuation area (scar stage) and flat lesion and chorioretinal atrophy (atrophy stage). Photodynamic therapy and intravitreal injection of anti-VEGF drugs are major treatments for PM-CNV, the latter is more commonly used now. However, more large randomized controlled studies are required to explore the treatment regimen (such as frequency, indications for repeated or termination of treatment) and the efficacy factors further.
ObjectiveTo evaluate the safety and effectiveness of vitrectomy combined with internal limiting membrane (ILM) tamping on macular hole and retinal detachment (MHRD) in highly myopic eyes.Methods23 patients (23 eyes) were retrospectively reviewed, who were diagnosed as MHRD through examination of the ocular fundus, optic coherence tomography (OCT) and B-mode ultrasonography. There were 5 males (5 eyes) and 18 females (18 eyes). The mean age was (62.35±8.28) years. The mean course of disease was 1.1 months. The logarithm of the minimum angle of resolution (logMAR) best-corrected visual acuity (BCVA) was 2.31±0.72. The mean axial length was (28.66±1.99) mm. All patients underwent 23G micro-incision vitrectomy. After vitreous gel and cortex were gently resected, the ILM around the edges of the macular hole was stained with indocyanine green, and was folded and pushed to fill the macular hole gently. Then silicone oil or C3F8 gas tamponade was applied in 18 eyes and 5 eyes, respectively. The silicone oil was removed after 3 months. The follow-up was 6 months. The BCVA, macular hole closure, retinal anatomical reattachment were retrospectively observed, and were used to evaluate the safety and effectiveness of the surgery.ResultsAt the 6 months after surgery, the logMAR BCVA was improved to 1.13±0.38, the difference was significant (t=15.33, P=0.00). The postoperative macular hole closure rate and retinal anatomical reattachment rate were 100%. There were no ocular or systemic adverse events observed in all patients.ConclusionVitrectomy combined with ILM tamping is an effective and safe treatment for the high myopic eyes with MHRD.
Objective To evaluate the therapeutic effects of vitrectomy with internal limiting membrane (ILM) peeling on retinal detachment in eyes with high myopia. Methods The clinical data of 25 high myopia patients (25 eyes) with retinal detachment and macular hole were retrospectively analyzed. The patients were divided into two groups according to the treatment:13 patients in group A had undergone conventional vitrectomy;12 patients in group B had undergone vitrectomy and ILM peeling.All patients had been tamponaded by inert gas and kept in a facedown position for 7-15 days after the operation. The followup period was 6-18 months (average 10 months).LogMAR visual acuity, ocular fundus, B-scan ultrasonography and optical coherence tomography had been followed up.Results Retinal reattachment was found in 7 eyes (53.8%) in group A and 11 eyes in group B (91.7%), the difference was significant(chi;2=4.427, P=0.046).The macular hole closed in 6 eyes (46.2%) in group A, and 11 eyes (91.7%) in group B; the difference was significant between those two groups (chi;2=5.940,P=0.020). The postoperative visual acuity increased significantly in both groups(Z=-2.045,2.481;P=0.041,0.012), the difference of vision improvement was not significant between those two groups (MannWhitnay U=51.5,P=0.16). Conclusions By completely releasing the macular traction and increasing retinal flexibility, vitrectomy with ILM peeling can significantly increase the rate of retinal reattachment and closure of macular hole in eyes with high myopia.
ObjectiveTo evaluate the efficacy of intravitreal injections of conbercept in choroidal neovascularization (CNV) secondary to pathologic myopia (PM). MethodsA retrospective case series of 37 eyes of 37 patients affected with CNV secondary to PM treated by intravitreal injections of Conbercept. All the patients were examined with best-corrected visual acuity (BCVA) of Early Treatment Diabetic Retinopathy Study (ETDRS) chart, central macular thickness (CMT) of optical coherence tomography (OCT)at baseline. The initial average letters of ETDRS BCVA was 49.86±8.87, CMT was (306.38±31.01) μm. All eyes were treated with intravitreal Conbercept 0.05 ml (10 mg/ml). Follow-up visits were performed monthly after injection. The mean follow-up time was 16.8 months. Injections were repeated according to the situation of BCVA, CMT, subretinal fluid and CNV leakage in follow-up. All eyes received an average of 4.8 injections. BCVA, CMT and ophthalmoscope examination were assessed monthly. The relationship of BCVA improvement and CMT reduction with the data at baseline and number of treatments were analyzed by Spearman Rho correlation respectively. ResultsDuring the 1, 3, 6 and 12 months after treatment, the mean BCVA were all improved with statistically significant difference (t=17.629, P < 0.01).At 12 months, 15 eyes (45.9%) had improvement of 15 letters or more, 32 eyes (86.5%) had improvement of 5 letters or more, and 1 eye (2.7%) had decreased more than 5 letters. During the 1, 3, 6 and 12 months after treatment, the mean CMT were all decreased with statistically significant difference (F=43.726, P < 0.01). At 12 months, the retinal fluid of 34 eyes (91.9%) were absorbed completely; 33 eyes (89.2%) had angiographic closure at that time. There was no significant relevance between BCVA improvement and sex, age and course of the disease (P > 0.05), but a significant negative correlation was found between the BCVA improvement and BCVA at baseline, injection times (P < 0.05). There was no significant relevance between CMT reduction and sex, age, course of the disease and injection times (P > 0.05), but a significant positive correlation was found between CMT reduction and CMT at baseline (P < 0.05). There were no systemic or ocular serious side effects during the follow up. ConclusionsIntravitreal injections of Conbercept showed BCVA improvement and CMT reduction. It appeared to be effective and safe for choroidal neovascularization secondary to pathologic myopia. Intravitreal Conbercept for CNV secondary to PM showed BCVA improvement, CMT reduction and safety.
High myopia is frequently associated with retinal degenerative changes (such as myopic foveoschisis, macular hole and its related retinal detachment, and choroidal neovascularization) which are the major causes of visual loss in high myopic eyes. Optical coherence tomography may help us to understand the macular lesions in high myopia. Peeling of internal limiting membrane and removal of posterior vitreous cortex at an appropriate time, are believed to facilitate restoring the retinal flexibility and resolution of myopic foveoschisis, and promote the macular hole closure and retinal reattachment. Antiangiogenesis treatment combined with photodynamic therapy and (or) corticosteroid therapy are the future options to treat myopic choroidal neovascularization. Correctly understanding and mastering the methods and timing of diagnosis and treatment of high myopiarelated macular degeneration, and taking targeted interventions to enable patients to be rational and effective treated, are the keys to further reduce the damage of visual function in patients with high myopia.