ObjectiveTo observe the optical coherence tomography (OCT) features of X-linked juvenile retinoschisis (XLRS) and its relationship and visual acuity. Methods Twenty-three XLRS patients (38 eyes) were enrolled in this study.All patients underwent best corrected visual acuity (BCVA) and frequency-domain optical coherence tomography (SD-OCT) examination. The international standard visual acuity chart was used for BCVA test and the results were then converted into logarithm of the minimum angle of resolution (logMAR) visual acuity. The mean logMAR BCVA of all patients was 0.41±0.28. Topcon 3D-OCT 1000 and Topcon DRI-OCT were applied to detect the retinal layers of retinoschisis. Based on the OCT features, retinoschisis was classified into 3 types, including splitting between outer nuclear layer (ONL) and outer plexiform layer (OPL), inner nuclear layer morphology (INL) splitting, splitting between ganglion cell layer (GCL) and nerve fiber layer (NFL). Based on the OCT features of fovea, there were photoreceptor inner segment (IS)/outer segment (OS) presence group and IS/OS absence group. ResultsThere were 17 eyes (44.7%) with splitting between ONL/OPL, 38 eyes (100%) with INL splitting, 13 eyes (34.2%) with splitting between GCL/NFL. INL splitting can coexist with splitting in other retinal layers. There were 25 eyes (65.8%) with splitting in 2 or more retinal layers. The mean logMAR BCVA were 0.32±0.17 and 0.44±0.22 respectively in the IS/OS absence group and presence group, the difference was statistically significant (t=6.531, P=0.008).The mean fovea thickness (FT) were(517.10±96.92)and(523.08±72.84) μm respectively in the IS/OS absence group and presence group, the difference was not statistically significant (t=2.282, P=0.061). There was no correlation between logMAR BCVA and FT (r=0.200, P=0.929). ConclusionsIn patients with XLRS, the foveomacular schisis involved in multiple retinal layers and most frequently in the INL. The defect of IS/OS is the important reason of the low visual acuity.
ObjectiveTo observe the fundus fluorescein angiography (FFA) manifestations of pediatric morning glory syndrome (MGS) patients. MethodsFourteen eyes diagnosed as MGS of 14 patients were studied. Among the 14 cases, there were 7 male and 7 female patients. At the time of FFA, the mean age of the patients was (38.75±33.91) months old, ranging from 5.5 to 128.0 months. Among the 14 eyes, four (28.57%) were associated with persistent hyperplastic primary vitreous; four (28.57%) were associated with retinal detachment with no retinal breaks, and one (7.14%) was associated with peripapillary subretinal exudation. All patients underwent peripapillary laser photocoagulation under general anesthesia first and then FFA with the third generation of wide-angle digital retinal imaging system. The arm-retinal circulation time (A-RCT), numbers of blood vessels on the edges of optic disc of the MGS eyes and the contralateral healthy eyes, retinal vascular morphology, the peripheral avascular area, neovascularization, retinal detachment and other abnormalities were documented. The horizontal and vertical diameters of the optic disc of the affected eyes and the contralateral healthy eyes were measured. To compare the A-RCT, 16 children with normal FFA were selected as control group. ResultsThe diameters of the vertical and horizontal axis of the affected eyes were as (2.56±0.58) and (2.73±0.60) times of the contralateral healthy eyes respectively. The average A-RCT of the affected eyes and eyes of the control group were (13.25±4.10) and (9.34±2.20) s respectively. The affected eyes had significantly prolonged A-RCT. At early stage, the optic disc and peripapillary areas showed hypo-fluorescence, while the irregular retinochoroidal atrophy area outside of the optic disk manifested as hyper-fluorescence ring. At late stage, optic disc showed hyper-fluorescence. Numbers of blood vessels on the edge of the optic disc of the affected eyes and contralateral healthy eyes were 30.27±4.86 and 15.83±1.95 respectively, the affected eyes had much more vessels than the contralateral healthy eyes. All affected eyes had peripheral retinal non-perfusion areas. ConclusionFFA examination showed prolonged A-RCT and peripheral retinal non-perfusion areas in the affected MGS eyes.
ObjectiveTo observe the application value and therapeutic efficacy of wide-field digital pediatric retinal imaging system (RetcamⅢ) fundus fluorescein angiograms (FFA) assisted photocoagulation on familial exudative vitreoretinopathy (FEVR). MethodsThe study included 46 eyes of 34 patients with staging 2 FEVR. All patients received color fundus photography and FFA under general anesthesia. The blood vessel reliability of color fundus photography and FFA was comparatively determined. Binocular indirect ophthalmoscope laser photocoagulation was applied to peripheral retina with abnormal leakage as indicated by FFA, the wavelength was 532nm, the duration was 0.25 s and the energy was 200-280 mW. After laser photocoagulation, fundus imaging and FFA was repeated. Further laser photocoagulation was immediately added to areas with vessel leakage but missing the photocoagulation. After treatment, the mean follow-up duration was 14.4 months. The follow up focused on neovascularization, exudative lesions, vitreous traction and merging of photocoagulation spots within 3 months, and on fibrosis membrane resulting in macular traction, tractional retinal detachment, vitreous hemorrhage or Coats disease-like retinal exudates after 3 months. ResultsIt was hard to identify the blood vessels based on the color fundus images and some avascular zone maybe missed. Neovascularization can't be determined by shape of the blood vessels. On the other hand, those new blood vessels can be easily recognized by FFA as leakage sites at the boundary of avascular zone. The surgeon could quickly and accurately locate the FEVR area guided by the color fundus images and FFA from same angle under binocular indirect ophthalmoscope. During the treatment, there was no retinal FEVR area missed laser photocoagulation for all patients. There was no neovascularization, exudative lesions, vitreous traction within 3 months, and no fibrosis membrane, tractional retinal detachment, vitreous hemorrhage or Coats disease-like retinal exudates after 3 months. There were no ocular and systemic complications during and after the FFA and laser photocoagulation. ConclusionWide-field RetcamⅢFFA can help retinal specialists to identify abnormal neovascularization, locate the lesion area, and thus increase the success rate of laser photocoagulation, reduce the ocular and systemic complications for FEVR.