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.
Purpose To define the morphometric characteristic s and the implication of simultaneous fundus fluorescein angiography (FFA) and indocyanine green angiography (ICGA) in traumatic choroidal rupture. Methods Simultaneous FFA and ICGA were carried out in 17 patient s (17 eyes) with traumatic choroidal rupture. Results Choroidal ruptures were shown as hyperfluorescence region in the early pha se of FFA,and as hyperfluorescence in the late phase of FFA but in ICGA were shown as hypofluorescence region in both early and late phases.The rupture regions in ICG A were longer than that in FFA in 5 patients (5 eyes).The rupture regions in 6 patients (6 eyes) with hemorrhage could be shown in ICGA,but couldn't be shown in FFA . Conclusion ICGA is helpful in diagnosing minor choroidal ruptures,in defining the extent of traumatic choroidal ruptures,and in further understanding the pathological changes of choroidal ruptures. (Chin J Ocul Fundus Dis, 2001,17:30-32)
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.
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.
Choroidal nevus is one of the most common benign melanocytic tumor. The prevalence rate of choroidal nevi is 0.15% - 10.00%, which is high among whites and low among colored people, and is obvious higher in male than that in female. Secondary changes in the surrounding retina of the benign tumor, such as subretinal fluid and choroidal neovascularization, may result in vision loss. This benign tumor carries risks for transformation into malignant melanoma. The factors predictive of transformation into melanoma included greater thickness, subretinal fluid, visual symptoms, orange lipofuscin pigment, tumor location (tumor margin near optic disc), ultrasonography hollowness and absence of halo. Early identification of the related features which impair visual acuity is important for early treatment and better prognosis, and it is especially important to monitor the tendency of malignant transformation. Optical coherence tomography (OCT) could provide detailed information which aid in diagnosing, differentiating and monitoring of choroidal nevi. OCT and optical coherence tomography angiography are emerging as excellent techniques to investigate choroidal melanocytic lesions. The treatment modalities, such as laser photocoagulation, photodynamic therapy and intravitreal anti-vascular endothelium growth factor, have been proved to be effective for choroidal nevi with secondary changes. In the future, the relevant researches should be imposed to provide more detailed information in order to explore the nature and characteristics of this disease.
Ultra-wide field fundus autofluorescence (FAF) imaging is a new noninvasive technique with an imaging range of about 200 °. It can detect peripheral retinal lesions that cannot be found in previous FAFs and more objectively reflect intracellular content and distribution of lipofuscin in the retinal pigment epithelium (RPE) and RPE cell metabolic status. The ultra-wide field FAF can find the abnormal autofluorescence (AF) in the peripheral retina of the eyes of age-related macular degeneration (AMD), and different AF manifestations may have an impact on the diagnosis and treatment of the different AMD subtypes. It is helpful to evaluate subretinal fluid in the eyes of central serous choroidal retinopathy and can accurately detect the changes in the outer retina of the eyes without subretinal fluid. It can help to determine the type of uveitis and fully display the evolution of the disease. It can also assess the peripheral photoreceptor cell layer and RPE in patients with retinal dystrophy and retinitis pigmentosa, and comprehensively evaluate their retinal function and monitor the progress of disease. It can also assist in the evaluation of the short-term efficacy and RPE cell function after the scleral buckling surgery for patients with rhegmatogenous retinal detachment. In the future, ultra-wide field FAF may change the knowledge and intervention strategy of ocular fundus diseases and promote the clinical and scientific research in this field.
The pathogenesis of polypoidal choroidal vasculopathy (PCV) is still controversial. More evidence of clinical and basic research is needed to distinguish PCV from an independent disease to a subtype of age-related macular degeneration. Not only that, there are also many puzzles in the diagnosis, treatment options and prognosis of PCV. In addition to these common problems, we also face a large population with risk factors, a large number of PCV patients with multiple and complex challenges in China. There is a long way to go to reduce the damage effects of PCV on visual function. To fulfil this goal, we need make full use of the huge resources of PCV patients and turn these challenges into opportunities, and contribute the improvement of diagnosis and better understanding of PCV pathogenesis.
Objective To compare the characteristics of fundus angiograms of central serous chorioretinopathy (CSC) with exudative agerelated macular degeneration (AMD) in patients more than 45. Methods The colorized photographs of ocular fundus, and results of fundus fluorescein angiography (FFA) and indocyanine green angiography (ICGA) of 32 patients (39 eyes) with CSC and 20 patients (22 eyes) with exudative AMD more than 45 were collected and analyzed retrospectively. Results In 39 eyes with CSC, the results of FFA revealed classic CSC in 11 (28.2%) and diffuse retinal pigment epitheliopathy (DRPE) in 28 (71.8%); the results of ICGA showed localized choroidal delayed filling associated with dilated vessels in 39 (100%) in the early phase, choroidal hyperpermeability in 39 (100%), identifiable hyperfluorescence of leakage from RPE in 16 (41.0%) was observed in the middle phase, and a distinctive silhouetting of the larger choroidal vessels in 5 (12.8%) was detected in the late phase. In 22 eyes with exudative AMD without evident hemorrage, the results of ICGA exhibited focal CNV in 13 (59.1%), plaque CNV in 8 (36.4%), and combination CNV in 1 (4.5%);choroidal delayed filling around macular region vicariously was found in 5 (22.7%) in the early phase, choroidal hyperpermeability was not observed in the middle phase and silhouetting of the larger choroidal vessels was not showed in the late phase. Conclusions The differences of the ICGA features between CSC and exudative AMD in patients more than 45 include focal or multifocal hyperfluorescence of leakage from RPE, multifocal choroidal hyperpermeability in the middle phase, silhouetting of the larger choroidal vessels in the late phase, and no focal or plaque CNV.
Optical coherence tomography angiography (OCTA) is a new and noninvasive imaging technique that generates real-time blood flow pattern on chorioretinal vasculature. In order to apply this novel technology in the practice to diagnose and treat ocular fundus diseases, we need to further strengthen the quality of OCTA image acquisition and reporting specifications. We need to understand its technical principle, and multiple factors affecting the OCTA image acquisition and interpretation. Furthermore, In the process of image acquisition, as well as analysis and interpretation, we need to pay attention to the stratification, interpretation of blood flow signals and identification of artifacts of OCTA images.
Objective To observe the characteristics of spectraldomain optical coherence tomography (SD-OCT) and fundus autofluorescence (FAF) in acute and chronic central serous chorioretinopathy (CSC).Methods Seven-three eyes of 67 patients with CSC diagnosed by slit-lamp microscopy, fundus photochromy, fundus fluorescein angiography (FFA) and indocyanine green angiography were enrolled in this study. All the patients were examined for FAF and SD-OCT. The patients were divided into acute CSC group (37 patients, 37 eyes) and chronic CSC group (30 patients,36 eyes) according to the clinical features and FFA images. According to the OCT feature in retinal detachment area, they were divided into three categories, which including intact, non-intact and atrophy outer segment, respectively. According to the FAF characteristics, they were divided into hyper-FAF, hypo-FAF and mixed type, respectively. The characteristics of SD-OCT and FAF of both acute and chronic CSC patients were evaluated and analyzed. Results In acute CSC group, 19 eyes (51.35%) were hypo-FAF, 18 eyes (48.65%) were hyper-FAF. In chronic CSC group, two eyes (5.56%) were hypo-FAF, 16 eyes (44.44%) were hyper-FAF, and 18 eyes (50.00%) were mixed type. There was significant difference between both groups (chi;2=31.872,P=0.000). The SD-OCT results showed that in acute group, 15 eyes (40.54%) were intact outer segment, 18 eyes (48.65%) were non-intact outer segment, and four eyes (10.81%) were atrophy outer segment. In chronic group, five eyes (13.89%) were intact outer segment, 17 eyes (47.22%) were non-intact outer segment, and 14 eyes (38.89%) were atrophy outer segment. There was significant difference between both groups (chi;2=10.572,P=0.005). Conclusions The FAF characteristics of acute and chronic CSC mainly manifests hypo-FAF and mixed type, respectively. The OCT characteristics of acute CSC mainly manifests intact outer segment and non-intact outer segment, but non-intact outer segment and atrophy outer segment in chronic CSC.