Objective To observe the degree of choriocapillary ectasia (CCE) and sub-foveal choroidal thickness (SFCT) in central serous chorioretinopathy (CSC) with different activity and discuss their relations. Methods Forty eyes of 40 CSC patients were recruited. The activity of CSC was determinate by fundus fluorescein angiography (FFA). There were 23 eyes with active CSC (active-CSC group), and 17 eyes with inactive CSC (inactive-CSC group). All eyes in both groups were examined with optical coherence tomography angiography(OCTA), and the CCE area of the choriocapillary layer was measured within a 3 mm×3 mm zone centered on the central fovea of macula. Ectasia was classified based on CCE area, more than 66% of examination area was high ectasia, and 33%-66% as medium ectasia, below 33% as low ectasia. SFCT was measured with frequency domain optical coherence tomography. The relationship between CCE degree, SFCT and CSC group was analyzed. Results Among the 23 eyes of active-CSC group, there were 5 eyes of low ectasia, 12 eyes of medium ectasia, 6 eyes of high ectasia. Among 17 eyes of inactive-CSC group, there were 11, 4, 2 eyes of low, medium and high ectasia respectively. Active-CSC group had more advanced degree of ectasia than that in inactive-CSC group(Z=-2.472, P=0.013).SFCT of active-CSC group and inactive-CSC group were (418.13±126.15), (429.76±105.80) μm respectively, the difference was not significant (t=-0.308, P=0.760). SFCT in eyes with low ectasia, medium ectasia, high ectasia were (419.13±105.60), (381.00±125.12), (515.13±67.68) μm respectively. The difference among the three group was statistical significant (F=4.106, P=0.025). SFCT in eyes of high ectasia was obviously thicker than low ectasia and medium ectasia, the difference was statistical significant (P=0.007, 0.048);the SFCT difference between low ectasia and medium ectasia did not appear statistical significance (P=0.326). There was no linear relation between SFCT and CCE degree (r=0.247, P=0.124). Conclusions Active-CSC eyes has more advanced CCE degree than inactive-CSC eyes, but SFCT is the same between the two groups. High ectasia eyes have thicker SFCT.
Ocular fundus imaging technology has developed rapidly in the past decade. The exsiting imaging technology is constantly updated and new imaging technology emerges one after another. The related research and development investment, equipment usage and paper publication are all growing rapidly. At the same time, it is developing towards the direction of multi-technology combination, integration of artificial intelligence and big data, as well as small-size and automation use of equipment. However, there are many challenges behind the prosperity of ocular fundus imaging, such as professionally remodeling of fundus diseases knowledge system standardization, balance and independence of scholarly communication, misunderstanding of "multimodal images", validation of the effectiveness and applicability of emerging technologies, clinical imaging research innovation, original technology innovation and technology reserve, fundus imaging data integration and analysis system for the future.
ObjectiveTo evaluate Micron Ⅳ retinal imaging system in three mouse models of retinal diseases. MethodsMouse models of oxygen induced retinopathy (OIR) model (OIR group), N-methyl-N nitrosourea (MNU) model (MNU group) and N-methyl-D-aspartate (NMDA) model (NMDA group) were induced in 24 healthy male C57BL/6J mice. Fundus photograph, fundus fluorescein angiography (FFA) and optical coherence tomography (OCT) and electroretinogram (ERG) were used to evaluate these mice. All the imaging examinations were performed by Micron Ⅳ retinal imaging system. ResultsOIR mice showed tortuous and dilated retinal vessels in fundus photograph, neovascularization plexus and vascular leakage in FFA, and epiretinal fibrovascular tissue and tortuous expansion vascular vessels in OCT. MNU mice showed wax yellow optic disk without retinal pigmentary changes, slight thinning of retinal blood vessels in FFA, and normal structure and thickness in OCT. The a-wave amplitudes of the maximum mixed response decreased significantly, and were (15.38±4.36) μV and (13.78±5.52) μV at 2 or 3 days of modeling, respectively. NMDA mice showed a pale retina with vasospasm. ERG revealed that there was no obvious change in latency of a- and b-wave, but significantly decreased amplitude of b-wave at 12 hours and 24 hours after modeling with (72.28±7.18) μV and (65.35±9.18) μV, respectively. ConclusionMicron Ⅳ retinal imaging system is a real-time, non-invasive tool to study the retinal structure and function in animal models of retinal diseases.
Objective To compare the macular imaging and measurements of patients with idiopathic epiretinal membranes (ERM) by stratus optical coherence tomography (OCT) and two different types of spectral-domain OCT. Methods Forty-six consecutive patients (46 eyes) diagnosed as idiopathic ERM in the period of August 2008 to October 2008 were enrolled in this study. The patients included 11 males and 35 females, with a mean age of (61.04plusmn;10.13) years. Twenty-one age- and sex- matched normal subjects (21 eyes) were enrolled in this study as control group. All the subjects underwent stratus OCT, cirrus OCT and 3D OCT-1000 examinations. The macular area was divided into three concentric circles which including central region with 1 mm diameter, inner area with >1 mm but le;3 mm diameter, and outer ring area with >3 mm but le;6 mm diameter. The inner area and outer ring area were divided into superior, nasal, inferior and temporal quadrants by two radioactive rays. The characteristics of OCT images and the quantitative measurements were compared among these three machines. The macular thickness of ERM group and control group was also compared. And the correlation of visual acuity and the macular thickness in idiopathic ERM patients was evaluated. Results The increased macular retinal thickness, disorder structure of inner retina, uneven surface and proliferative inner and outer plexiform layer were observed in ERM group by stratus and spectral-domain OCT. But the minor pathological changes on inner retina structure and internal surface proliferation could be observed more clearly by spectral-domain OCT than those by stratus OCT.The macular thicknesses of all the subjects measured by Cirrus OCT and 3D OCT-1000 were thicker than those measured by Stratus OCT (t=7.445-11.253,P=0.000). The correlations of measurements between three OCTs were good (r>0.9). The flatted or disappeared fovea of ERM patient group was observed by all three OCTs. The macular thicknesses on different subfields of patients in ERM group were thicker than those in control group, especially in the 1-3 mm inner ring (t=2.477-10.139,P<0.05). Moderate negative correlations were shown on the macular thickness and visual acuity in ERM group (r=-0.216-0.517). Conclusions Spectral domain OCT yields better visualization of the intraretinal layers than time domain OCT. The images in spectral domain OCT are more clear and fine compared to stratus OCT. Stratus OCT correlates with spectral domain OCT, but they are different, and cannot be replaced by each other.
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.