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)
Objective To observe the imaging features of ultra-wide field short wave fundus autofluorescence (SW-FAF) in eyes with multiple evanescent white dot syndrome (MEWDS), and analysis the correspondence to conventional images. Methods It was a retrospective case series study. Thirteen patients (14 eyes) diagnosed with MEWDS were enrolled. There were 12 females and 1 male, aged from 22 to 57 years, mean age was 34.5 years. All the eyes underwent fundus color photography, optical coherence tomography (OCT) and ultra-wide field autofluorescence (FAF). Simultaneous fundus fluorescein angiography (FFA) and indocyanine green angiography (ICGA) were performed in 6 eyes. The characteristic changes of SW-FAF in studied eyes were observed and compared with the images of FFA and ICGA. All the eyes were followed up every 1 to 2 weeks, with an average of 16.7 weeks. The characteristic images of SW-FAF and corresponding OCT were studied during follow up. Results MEWDS presented with numerous multiple hyper-autofluorescent spots, sized from 50-500 μm, with a vague boundary in ultra-wide field SW-FAF. These spots located mainly at the peripapillary area and the posterior pole with a confluent pattern. The lesions extended to the mid-peripheral retina as well and became more scattered. The distribution of the hyper-autofluorescent lesions in SW-FAF corresponded roughly to that of the greyish-white spots seen in color photograph and the hyper-fluorescent spots detected by FFA. It was consistent with the distribution of hypo-fluorescent spots in late-phase ICGA as well. But the number of the spot showed in FAF is much more than that in FFA, and slightly less than that in ICGA. The OCT scans through the hyper-autofluorescent lesions in SW-FAF showed impairment of outer retina. After the recovery, the hyper-autofluorescent spots disappeared with the outer retina structure repaired completely. Conclusions MEWDS presented with numerous multiple hyper-autofluorescent spots which located mainly at the peripapillary area in ultra-wide field SW-FAF. The distribution of the hyper-autofluorescent lesions in SW-FAF corresponded roughly to color photograph, FFA and ICGA in late-phase. The OCT scans through the hyper-autofluorescent lesions in SW-FAF showed impairment of outer retina.
Objective To observe the autofluorescence of dated fundus hemorrhage excited by the excitaton light with different wavelength. Methods A total of 23 patients (23 eyes) with dated fundus hemorrhage were observed. The blue light under the fundus fluorescence angiography (FFA) mode of Topcon 50IA fundus camera was the excitation light, and the whiteandblack images of 4 patients and colorized images of 16 patients were collected, respectively. The autofluorescence of dated fundus hemorrhage in other 3 patients was observed by excitation of scanning laser with the wavelength of 488 nm and 795 nm emitted from Heidelberg retina angiography apparatus (HRA2). Results The black and white images showed the b red autofuorescence of dated fundus hemorrhage in 4 patients, while the colorized ones revealed the red autofluorescence in 16 patients. The hemorrhage autofluorescence could be also excited by blue laser (488 nm) and infrared laser (795 nm) using HRA2, but with different extent and intensity. Conclusions Due to the complex composition of dated fundus hemorrhage, different excitation light can excite the autofuorescence with different wavelength.
Objective To observe the effects of subretinal transplantation of rat mesenchymal stem cells (rMSCs) on Sodium Iodate (SI)induced retinal degeneration. Methods One hundred and twenty BrownNorway (BN) rats were divided into three groups including SI injection group,rMSCs transplantation group and normal control group, each with 40 rats. The retinal degeneration was induced by caudal vein injection of SI. The retinal pigment epithelium(RPE)and neural retinal were evaluated by ocular fundus photograph, fluorescein fundus angiography (FFA),electroretinogram (ERG) and histological approach, and TUNEL(terminal deoxynucleotidyl transferasemediated dUTP nick end labeling ). CMDiIprelabeled primary rMSCs were transplanted into the subretinal space of SIinduced rats. The survival, integration, and differentiation of rMSCs were observed between 14 day to 60 day after the transplantation.Results The rat retinal function was gradually reduced after14 days of SI injection, with a timedependent manner. After the RPE cells were damaged,the outer segments of photoreceptors became disrupted and shortened until karyopyknosis. The nuclear morphology and positive TUNEL labeling indicated that the death of photoreceptor cells was apoptosis. After rMSCs transplantation, CMDiI labeled donor cells were observed to be scattered in the subretinal space and expressed RPE cell markers. Average amplitude of b wave and Ops (oscillation potential) in ERG improved 27.80%,59.38% respectively after rMSCs transplantation.Conclusions Transplanted rMSCs can survive in subretinal space and differentiate into RPE.
Objective To observe the clinical features of acute macular neuroretinopathy (AMN). Methods Six patients (11 eyes) with AMN were included in this study, with every 2-week follow-ups till six months. Among them, five had preceding dengue fever (83.3%), one had history of head trauma (16.7%). All patients received routine examination, fundus photography, infrared reflectance (IR) imaging, spectral-domain optical coherence tomography (SD-OCT) scanning and fluorescein fundus angiography (FFA) initially, and fundus photography, IR, SD-OCT during follow-up. Results Sudden onset of central/paracentral scotoma in one eye or both eyes was the main visual symptom. There were 1 eye with normal fundus, 2 eyes with wedge-shape lesions, 8 eyes with yellow-white or brown sheet lesion. IR imaging demonstrated localized areas of hypo-reflection in the macula. SD-OCT scanning through these areas revealed hyper-reflection in the photoreceptor layer and disruption of its normal reflective structures. Subsequent SD-OCT demonstrated that the hyper-reflection of the photoreceptor layer regressed gradually, followed by thinning of the outer nuclear layer. The external limiting membrane and ellipsoid zone became continuous; however, the interdigitation zone was not restored. There was no remarkable findings of the AMN lesions on FFA. The scotomas persisted in all 6 patients (11 eyes) by the last visit. Conclusions IR imaging demonstrated localized areas of hypo-reflection in the macula. SD-OCT revealed hyper-reflection in the photoreceptor layer in acute stage and the interdigitation zone was not restored in late stage. AMN has a relative poor prognosis with persistent scotomas through at least 6 months.
With the renovations of modern retinal imaging modality, such as video ophthalmoscopy, fundus photography, fundus fluorescein angiograph and spectral domain optical coherence tomography, it is possible to get high resolution and reproducible in vivo imaging of retina from neonates to improve the diagnosis and treatment of pediatric retinal disease. Now we have a better tool to investigate the early development of human retina, the pathogenesis and progression of pediatric retinal diseases, and to monitor the treatment efficacy and prognosis of these diseases. To expand these technologies in the diagnosis and treatment of pediatric retinal disease, we need simple, safe, comprehensive and objective applications which can only be achieved through multi-disciplinary cooperation.
Objective To evaluate the application value of intraocular biopsy in the diagnosis of atypical intraocular lesions. Methods The clinical data of 31 patients (31 eyes) with atypical intraocular lesions were retrospectively analyzed. All patients received intraocular biopsy including anterior chamber puncture, vitreous puncture and vitreous biopsy followed by pathological cell examination. Cytological examination was immediately performed for all biopsy fluids or tissues; biopsy times, the positive detecting rate and independent pathological diagnosis rate were analyzed. Intraoperative and postoperative complications were observed. Eyeballs with biopsy-suggested malignancy lesions were enucleated and underwent histopathological analysis. The biopsy results and histopathological results were compared and analyzed.Result Thirty-one eyes received 35 times of biopsy operation in total. The available samples harvested from 29 patients through 31 operations were valid for pathological cell examination,the positive detecting rate was 88.6%. Among the 31 eyes, 12 eyes had malignant lesions; 15 eyes had benign lesions; two eyes were diagnosed with benign lesions initially, but corrected to malignant through the second biopsy;the lesions in two eyes were not determined by biopsy. Among the 29 eyes with valid biopsy, 23 eyes were diagnosed independently by pathological examination; the diagnosis of the other six eyes was made based on pathological examination and clinical features. The independent pathological diagnosis rate was 71.4%. The complications included intraocular bleeding in five eyes, retinal detachment in three eyes and more serous inflammation in one eye. The sensitivity for diagnosis of malignant lesions was 85.7% and the specificity was 100.0%. The predictive value of positive test was 100.0% and the negative one was 86.7%.Conclusion Intraocular biopsy has important values in the diagnosis of atypical intraocular lesions.
ObjectiveTo observe the clinical and imaging characteristics of acute idiopathic macular degeneration (AIM).MethodsA retrospective clinical study. From March 2016 to January 2018, 5 eyes (5 AIM patients) in The Second People's Hospital of Yunnan Province were included in the study. Among them, there were 4 males (4 eyes) and 1 female (1 eye); all patients were monocular with the average age of 34.2 years. The course of illness from onset of symptoms to treatment was 4-22 days. All affected eyes were examined by BCVA, fundus color photography, OCT, FAF, and FFA. Among 5 eyes, 1 eye with optic disc vasculitis was given oral glucocorticoid treatment; 4 eyes were not interfered after the diagnosis. ResultsThe follow-up time was 6 months. During follow-up, BCVA, fundus color photography, and OCT examination were performed. The results were all a sudden decrease in monocular vision, accompanied by visual distortion or central dark spots. At the first visit, the BCVA was 0.1, 0.2, 0.2, 0.05, and 0.5; at the last follow-up, the BCVA of the affected eye was 0.8, 0.6, 0.5, 0.5, and 1.0, respectively. Fundus color photography showed that at the first diagnosis, all the affected eyes showed irregular round yellow-white lesions in the macular area, including 1 eye with small patches of hemorrhage and 1 eye with pseudopyous changes in the macular area. Two to three weeks after the initial diagnosis, the yellowish-white lesions and bleeding in the macular area were basically absorbed. The center of the lesion showed weak pseudopod-like fluorescence, and the surrounding area was surrounded by strong fluorescence in FAF examination. The irregular and strong fluorescence in the early macular area and accumulation of late fluorescein in FFA examination. One eye was receivied glucocorticoid therapy. The upper layer of the retinal nerve in the macular area was detached, and the inferior space showed focal strong reflective material in 3 eyes in OCT examination. At the first diagnosis, the retinal neuroepithelial layer was detached, the top of the RPE layer was irregular with strong reflective material, and the structure of the ellipsoid zone and the chimera zone was unclear; as the course of the disease prolonged, the outer retinal structure recovered.ConclusionsAIM is characterized by inflammatory exudative changes in the outer layer of the retina in the macular area; FFA is characterized by strong subretinal disc-like fluorescence or multifocal weak fluorescence in the macular area; OCT mainly manifests as neuroepithelial detachment and changes in the outer retina and RPE, The structure can be restored by itself.
Objective To observe the characteristics of multiple evanescent white dot syndrome (MEWDS) with modern multimodal imaging modalities. Methods This was a retrospective case study. Eleven patients (11 eyes) diagnosed with MEWDS were enrolled. There were 10 females and 1 male, mean age was 27.6 years (range 15-41 years). The period between disease onset and visiting to the hospital was between 2 to 13 days, the average time was 4.7 days. All the patients underwent examinations of best corrected visual acuity, slit-lamp biomicroscope, indirect ophthalmoscope, fundus color photography, fundus autofluorescence (FAF), fundus fluorescein angiography (FFA), indocyanine green angiography (ICGA) and spectral domain optical coherence tomography (SD-OCT). The mean follow up duration was 3.2 months. The imaging characteristics were compared. Results Fundus color photography showed foveal orange-red granularity in all eyes. FAF showed strong autofluorescence with a vague boundary. FFA showed a variable number of highly fluorescent fine needle-like dots arranged in a ring in the early stage, and fluorescence remained in the late stage. ICGA showed advanced lesions of vague boundary merged into a large plaque of deep retinal hypofluorescence. SD-OCT showed the hyperreflectant material deposit over the retinal pigment epithelium and extending anteriorly through the interdigitation zone, ellipsoid layer, and toward the external limiting membrane. At the site of extrafoveal lesions, SD-OCT revealed the presence of discontinuities or disruptions centered on the ellipsoid zone to include the interdigitation. Conclusions In MEWDS patients, fundus photography showed foveal orange-red granularity; FFA showed early fluorescent dots distributed in a ring pattern; ICGA showed hypofluorescent lesions in the later stage; SD-OCT showed disruption of the interdigitation zone and ellipsoid zone and accumulations of hyperreflective material that was of variable size and shape; FAF showed strong autofluoresce areas that correlated to spots observed with FFA and ICGA.
Ultra-wide-field fluorescein angiography (UWFA) is a novel breakthrough in ocular fundus imaging technology, which can capture a single, high-resolution, 200° wide image of the ocular fundus that traditional fluorescein angiography cannot reach. This technology has important impacts on the screening, diagnosis, staging, treatment and follow-up of vascular diseases involving peripheral retina (such as diabetic retinopathy, age-related macular degeneration, retinal vein occlusion, uveitis and so on).