Objective To cpmpare the assessment of retinal and choroidal disease using confocal scanning laser ophthalmoscope (cSLO) imaging and color fundus camera. Methods Sixty-seven patients (90 eyes) with fundus diseases were included in this study. There were 35 males (51 eyes) and 32 female (39 eyes), mean age was 51.32 years. All subjects underwent fundus imaging using cSLO technology and traditional color fundus camera, positive numbers of every retinal pathological change were calculated and compared. Spectral domain-optical coherence tomography (SD-OCT) was also done to compare the accordance rate between two modes of fundus imaging (cSLO technology and traditional color fundus camera) and SD-OCT in choroidal changes. Results The positive numbers of retinal microaneurysm (χ2=4.157, P < 0.05) and epiretinal membrane (χ2=5.428, P < 0.05) using cSLO fundus imaging were significantly higher than traditional color fundus camera, while the positive numbers of cotton wool spots (χ2=0.523), retinal hemorrhage (χ2=0.117), hard exudates (χ2=0.325) and macular hole (χ2=0.070) were no significant different (P > 0.05). The SD-OCT accordance rate of choroidal pathological changes using cSLO technology was higher than traditional color fundus camera (χ2=9.143, P=0.007). Conclusion In retinal and choroidal diseases, the imaging quality of cSLO fundus imaging technology is better than the traditional color fundus camera technology.
With the rapid development of ophthalmic imaging methods, there are many ways of examination in the diagnosis and treatment of fundus diseases, such as FFA, ICGA, FAF, OCT and emerging blood vessels by OCT angiography in recent years. Multi-model image can understand the changes of anatomical structure and function of different levels and parts of the fundus from different aspects. A variety of imaging examinations are combined and complemented each other, which makes us have a further understanding of the location and pathological changes of many fundus diseases. But at the same time, the emergence of multi-modal images also brings a series of problems. How to standardize the use of multi-modal imaging platform to better serve the clinic is a problem that ophthalmologists need to understand.
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.
Optical coherence tomography angiography (OCTA) is a new and non-invasive imaging technique that is able to detect blood flow signal in the retina and the choroid within seconds. OCTA is different from the traditional angiography methods. The major advantages of OCTA are that it can observe blood flow signal in different layers of the retina and the choroid without injecting any dye, provide blood flow information that traditional angiography cannot provide, and enrich pathophysiological knowledge of the retinal and choroidal vascular diseases., which help us to make an accurate diagnosis and efficient evaluation of these diseases. However there is a large upgrade potential either on OCTA technique itself or on clinical application of OCTA. We need to fully understand the advantage and disadvantage, and differences of OCTA and traditional angiography. We also need to know how to interpret the result of OCTA. With that we could make a fast diagnosis in a non-invasive way and improve our knowledge of the retinal and choroidal vascular diseases.
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.
ObjectiveTo observe the characteristic of optical coherence tomography (OCT) and subfoveal choroidal thickness(SFCT) in patients with multiple evanescent white dot syndrome (MEWDS). MethodsThe clinical data of 10 patients (10 eyes)with MEWDS were included in the study. 10 normal subjects with matched age, gender and ocular refractive status was selected as control. The patients including 9 females (9 eyes) and 1 male (1 eye), with the average age of (27±8) years. The onset time ranged from 5 to 14 days. The patients were in acute phase if it was in 2 weeks after onset, or convalescent phase if onset was 8 weeks ago. The corrected vision, slit lamp biomicroscopy, ophthalmoscope, fundus photography, fundus fluorescein angiography, indocyanine green angiography and optical coherence tomography (OCT) were performed alone or combined in all patients. The SFCT between the acute and convalescent phases were measured using enhanced depth imaging OCT. The average follow-up was 5 months. The OCT characteristics of affected eyes between acute and convalescent phase were compared. The SFCT of the affected eyes and fellow eye were compared. ResultsThe foveal inner segment-outer segment (IS/OS) was disrupted, thin, irregular in the acute phase, and restored in the convalescent phase. The SFCT of patients in the acute phase was (239±140.7) μm, in the convalescent phase was (189.9±115.6) μm. The SFCT in the acute phase was more thicker than the convalescent phase (t=5.287, P < 0.05). The SFCT of fellow eyes in the acute phase was (214.6±127.2) μm, in the convalescent phase was (186.5±108.6) μm, the difference was significant(t=3.553, P < 0.05).The SFCT in the control subject was (155.5±83.5) μm. The SFCT in the acute phase was thicker than the control(Z=-2.117, P < 0.05). ConclusionsIn the acute phase of MEWDS, the foveal IS/OS was disrupted, thin and irregular in OCT scan. The choroid is thicker in the acute phase than in the convalescent phase in both eyes, and thicker than controls.
Optical coherence tomography angiography (OCTA) is a new diagnostic technique in recent years based on the optical coherence tomography. It is one of the fastest developing imaging examinations in ophthalmology. Compared with the classic diagnostic methods of fundus fluorescein angiography and indocyanine green angiography, OCTA show the ability to reveal blood flow non-invasively. With the development of modern medical detection technology, the requirement for ophthalmic diagnosis is raised, and many new measurement methods begin to apply in research and clinical, which makes the detection methods in the field of ophthalmology more accurate and comfortable. OCTA is a novel and noninvasive flow imaging technique, and it has the advantages of high resolution, fast scanning, as w ell as quantifying blood flow. Meanwhile, this technique can not only qualitatively analyze the shape of ocular blood vessels, but also be able to measure the ocular blood vessels and blood flow non-invasively, as well as to assess the depth of lesions. At present, with a wide clinical application in ophthalmology, OCTA still has its own superiority and weakness, but with the development of technology. It is believed that the OCTA will be expected to replace the relevant invasive examination methods and become a new tool for ophthalmic imaging.
Paediatric retinal disease is the most important part of paediatric ophthalmology. It usually manifests as leukocoria or yellow pupil, typically in retinopathy of prematurity, familial exudative vitreoretinopathy, persistent hyperplastic primary vitreous, Coats disease and retinoblastoma. It also can be manifested as nystamus poor visual fixation or progressive worsening of visual function, typically in Leber congenital amaurosis, Stargardt disease, Best disease and cone and rod dystrophy. Paediatric retinal diseases can be roughly divided into acquired, hereditary and congenital developmental abnormalities. With the development of gene and stem cell technologies, the advent of new medicine, equipments and new techniques, the concept of diagnosis and treatment in paediatric retinal diseases is also changing. In China, the level is improving progressively in both clinical and research areas of paediatric retinal diseases.
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.