The retinal vessel changes are the primary and major features of retinal vascular diseases. The retinal vessel is part of systemic vessels with its own characteristics to sustain normal retinal function. These basic characteristics are important to the correct understanding and proper treatment of retinal vascular diseases. Always keep in mind that the retinal vessels is one part of the systemic vascular system, thus retinal vascular diseases may have systemic etiology, and systemic drug administration may have a profound effects to the whole body. However retinal vascular system also has its own structural and functional characteristics, thus retinal vascular diseases are also different from the systemic diseases. Finally the main function of retinal vascular network is to maintain the neuro-retinal function, thus we should balance the vision protection and treatments against abnormal retinal blood vessels. Over-treatments may damage the retinal vision.
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.
Optic coherence tomography (OCT) is one of the most rapid developing technologies in ophthalmology. OCT angiography (OCTA) has been made possible by the development of even faster scanning and sampling techniques, which is the next milestone after stratus OCT and spectral domain OCT. Without the need of injection of the contrast agent, OCTA is capable of providing a three-dimensional reconstruction of the perfused microvasculature within the retina and choroid by detecting the motion of scattering particles such as erythrocytes within sequential OCT cross-sectional scans performed repeatedly at the same location of the eye with different analysis algorithms. Comparing to fundus fluorescein angiography and indocyanine green angiography, with improved OCT technology and understanding, OCTA has showed certain advantages to diagnose retinal and choroidal diseases, especially macular vascular diseases. It is important to establish the contributions that OCTA can make to diagnosing, managing and understanding of ocular fundus diseases.
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)
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.
ObjectiveTo observe the multimodal imaging characteristics of multiple evanescent white dot syndrom (MEWDS).MethodsThis was a retrospective series case study. Eighteen patients (18 eyes) diagnosed with MEWDS in Eye Center of The Second People’s Hospital of Foshan from September 2015 to April 2017 were enrolled in this study. There were 12 females and 6 males, with the mean age of 35.9 years. The disease course ranged from 3 to 90 days, with the mean of 14 days. All the patients underwent BCVA, slit-lamp microscope with +90D preset lens, fundus photography, spectral domain OCT (SD-OCT) and FAF examinations. FFA was simultaneously performed in 6 eyes, FFA and ICGA were simultaneously performed in 12 eyes. Ten patients received the treatment of glucocorticoids and vasodilator substance, and other 8 patients without any treatment. The follow-up duration was 4.5 months. The multimodal imaging characteristics were reviewed and analyzed.ResultsFundus color photography showed a variable number of small dots and large spots lesions (14 eyes), and/or fovea granularity (7 eyes) and disk swelling (5 eyes). A variable number of little dots and larger spots lesions showed respectively in FFA, FAF and ICGA were needle-like dots distributed in a wreathlike pattern and a large plaque occasionally confluent of early highly fluorescent, highly autofluorescence and hypofluoresence. Combined hypofluorescent spots with overlying dots were observed in 10 eyes of the late stages of the ICGA. Black lesions in the gray background show in ICGA were the most obvious and the most extensive, gray-white lesions in the gray-black show in FAF were the second, light gray-black lesions in the gray show in FFA were the least. Gray-white lesions in an orange background show in fundus photography were not obvious and transient. SD-OCT showed disruption of the ellipsoid zone and/or accumulations of hyperreflective material from the ellipsoid layer toward the outer plexiform layer and vitreous cells. During the period of following-up, some patients were prescribed low-dose glucocorticoid and some not, almost all the patients except one patient experienced recovery in BCVA and the lesions in fundus imaging.ConclusionsThe lesions in MEWDS eyes in modern multimodal imaging modalities among fundus photography (fovea granularity), FFA (needle-like dots distributed in a wreathlike pattern and a large plaque occasionally confluent of early highly fluorescent), ICGA (flake hypofluorescent) and SD-OCT (disruption of the ellipsoid zone) showed good consistency. Almost eyes were recovery.
Objective To observe the imaging features of the optical coherence tomography angiography (OCTA) of complex retinal arterial macroaneurysm (RAM). Methods Nineteen eyes of 19 patients with RAM were enrolled in this retrospective study. There were 1 male (1 eye) and 18 females (18 eyes). The patients aged from 62 to 85 years, with the mean age of 71.3 years. The fundus photography examination revealed the tumors were located in the 1 - 3 branch of the artery, which showed focal spindle-shaped or fusiform angiomatous dilatation. The fundus fluorescein angiography revealed the early uniform fluorescence of the tumor, and the tumor was a high-fluorescence leak in the late period. RAM was divided into exudative type and hemorrhagic type according to the literature and based on the ocular fundus appearance. In 19 eyes, 8 eyes were exudative RAM and 11 eyes were hemorrhagic RAM. All eyes were examined by OCTA, and the retinal blood flow images of 3 mm ×3 mm diameter were routinely collected to observe the OCTA imaging features. Results OCTA examination showed that the superficial RAM of all eyes had strong reflection signal connected with retinal artery. B-scan image showed smaller tumors in the lumen with strong reflection of expansion, or large tumor with peak-like uplift and the blood flow signals in the tumor body were abundant. The enface image clearly showed the three-dimensional shape of the tumor. Tumors with exudation or multi-level bleeding could be clearly documented for their bleeding range and boundary. The white signal co-localized with the superficial retinal blood vessels by the function of multi-color fluoroscopy. The pattern of blood flow density can also clearly show the three-dimensional shape of the tumor. Conclusion The complex RAM is a strong reflection signal in the superficial layer of retina, which is connected with the retinal vessels; B-scan images shows small tumors with a small piece of strong reflection and dilation, or large tumors with mountain-like elevation with abundant blood flow signals. En face image can clearly show the three-dimensional shape of the tumor.
Autofluorescence is produced by lipofuscin in retinal pigment epithelium (RPE) cells which is induced by exciting light and enables the visualization of lipofuscin changes in the RPE cells, thus showing the function of RPE and photoreceptor cells. Fundus autofluorescence (FAF) imaging is a non-invasive imaging technique providing information of RPE and photoreceptor cells, which is not obtainable with other imaging modalities. The scope of applications includes identification of diseased RPE in retinal diseases, elucidating pathophysiological mechanisms, estimating disease progression and prognosis, guiding treatment protocols. Common fundus diseases have different pathological types, levels and causes, so they can cause various damages of RPE and photoreceptor cells which induce complicated FAF. It is worth to further observing and investigating the common retinal diseases' FAF characteristics and clinical applications.
Objective To observe the of macular serous neuroepithelial detachment and the necessary auxiliary examination methods for the diagnosis.Methods The clinical data of 46 patients (49 eyes) aged above 45 years with macular serous neuroepithelial detachment who have been diagnosed by binocular indirect ophthalmoscope and optical coherence tomography (OCT) were retrospectively analyzed. All the patients had undergone fundus fluorescein angiography (FFA) and indocyanine angiography (ICGA), and the diagnosis was established based on the results of FFA, ICGA and OCT. Results In these 46 patients (49 eyes), central serous chorioretinopathy (CSC) was found in 31 (34 eyes, 69.4%), agerelated macular degeneration (AMD) was found in 12 (12 eyes, 24.5%), and polypoidal choroidal vasculopathy (PCV) was found in 3 (3 eyes, 6.9%). In the 34 eyes with CSC, 12 eyes (35.3%) had typical CSC and 22 eyes (64.7%) had chronic CSC. If the 12 eyes with AMD, 9 eyes (75%) had occult CNV, 2 eyes (16.7%) had minimally classic CNV, and 1 eye had classic CNV. Conclusions The causes of serous macular neuroepithelial detachment in patients aged above 45 years are complex; ICGA may help to establish the definitive diagnosis of chronic CSC, occult CNV,and PCV should be considered.
Confocal scanning laser ophthalmoscope imaging superimpose two or three kinds of lasers to obtain images of different layers of retina, and then synthesize a pseudo-color fundus image by computer. Confocal scanning laser ophthalmoscope is widely used in outpatient fundus pre-examination and epidemiological screening of large samples due to its features of non-mydriatic, fast imaging, simple operation and high degree of patient cooperation. It has good clinical and scientific application value in the diagnosis and treatment of a variety of fundus diseases. Because of there is still a lack of unified standards for laser fundus photos in China, it is necessary to correctly identify the common fundus lesions in confocal scanning laser ophthalmoscope and to summarize and popularize the method of reading the photos in layers. In addition, we should give full play to the its advantage of layering and locating, and reasonably choose the combination of OCT, OCT angiography, FFA, ICGA, ultrasonography, so as to maximize its clinical application value and help clinical diagnosis.