Uveitis is a group of inflammatory diseases affecting the uveal tract, retina, retinal blood vessels and vitreous. Due to its complex etiology, various entities, diverse and lack of constancy in treatment, some patients can experience visual impairment and even loss. In view of the fact that blindness caused by uveitis is mostly incurable and occurs usually in young and middle-aged people, it accounts for an important part of blinding eye diseases and has attracted worldwide attention. With the continuous development of precision medicine, clinicians will face new problems and challenges in disease diagnosis, and further in-depth research is needed to explore more optimized and efficient diagnostic processes and examinations to improve the diagnosis of uveitis in China.
ObjectiveTo observe the imaging features of optical coherence tomography (OCT) in peripheral retinal abnormalities of high myopia (HM). MethodsA retrospective series of case studies were conducted. From March 2019 to March 2021, 38 cases (50 eyes) in high myopia with peripheral retinal abnormalities who were confirmed to Henan Eye Hospital were enrolled in the study. There were 21 eyes in 17 males and 29 eyes in 21 females, age was 39.58±15.29 years, diopter was (-9.10±2.44) D. All patients underwent wide-angle fundus photography and OCT examination. According to wide-angle fundus photography and OCT, HM with peripheral retinal abnormalities were classified into white-without-pressure, black-without-pressure, lattice degeneration, peripheral pigmented degeneration, retinoschisis and retinal holes. OCT imaging features of peripheral abnormalities in high myopia was observed. ResultsIn 50 eyes, 65 peripheral retinal abnormalities were observed by OCT. In 6 white-without-pressure, intense hyperreflectivity was shown at the level of the ellipsoid zone that abruptly transitions to relative hyporeflectivity at the dark border of the lesion. In 16 black-without-pressure, reflectivity of the ellipsoid zone decreased. In 10 sites of lattice degeneration, cystoid degeneration, local thinning, retinal tear at the posterior edge and boundary of the lesion was shown, whcih may be accompanied by local vitreous condensation and traction. In 4 peripheral pigmented degeneration, retinal interlayer hyperreflectivity was shown. In 12 retinoschisis, neuroepith-elial separation was connected by vertical bridge or columnar light bands, of which 3 were accompanied with localized retinal detachment and 2 with splitting-related retinal vascular abnormalities. In 17 retinal holes, full layer of neuroepithelium lost, that 12 zones were accompanied with retinal detachment with vitreous adhesion or traction. ConclusionOCT manifestations of peripheral retinal abnormalities in HM varies.
ObjectiveTo study a deep learning-based dual-modality fundus camera which was used to study retinal blood oxygen saturation and vascular morphology changes in eyes with branch retinal vein occlusion (BRVO). MethodsA prospective study. From May to October 2020, 31 patients (31 eyes) of BRVO (BRVO group) and 20 healthy volunteers (20 eyes) with matched gender and age (control group) were included in the study. Among 31 patients (31 eyes) in BRVO group, 20 patients (20 eyes) received one intravitreal injection of anti-vascular endothelial growth factor drugs before, and 11 patients (11 eyes) did not receive any treatment. They were divided into treatment group and untreated group accordingly. Retinal images were collected with a dual-modality fundus camera; arterial and vein segments were segmented in the macular region of interest (MROI) using deep learning; the optical density ratio was used to calculate retinal blood oxygen saturation (SO2) on the affected and non-involved sides of the eyes in the control group and patients in the BRVO group, and calculated the diameter, curvature, fractal dimension and density of arteriovenous in MROI. Quantitative data were compared between groups using one-way analysis of variance. ResultsThere was a statistically significant difference in arterial SO2 (SO2-A) in the MROI between the affected eyes, the fellow eyes in the BRVO group and the control group (F=4.925, P<0.001), but there was no difference in the venous SO2 (SO2-V) (F=0.607, P=0.178). Compared with the control group, the SO2-A in the MROI of the affected side and the non-involved side of the untreated group was increased, and the difference was statistically significant (F=4.925, P=0.012); there was no significant difference in SO2-V (F=0.607, P=0.550). There was no significant difference in SO2-A and SO2-V in the MROI between the affected side, the non-involved side in the treatment group and the control group (F=0.159, 1.701; P=0.854, 0.197). There was no significant difference in SO2-A and SO2-V in MROI between the affected side of the treatment group, the untreated group and the control group (F=2.553, 0.265; P=0.088, 0.546). The ophthalmic artery diameter, arterial curvature, arterial fractal dimension, vein fractal dimension, arterial density, and vein density were compared in the untreated group, the treatment group, and the control group, and the differences were statistically significant (F=3.527, 3.322, 7.251, 26.128, 4.782, 5.612; P=0.047, 0.044, 0.002, <0.001, 0.013, 0.006); there was no significant difference in vein diameter and vein curvature (F=2.132, 1.199; P=0.143, 0.321). ConclusionArterial SO2 in BRVO patients is higher than that in healthy eyes, it decreases after anti-anti-vascular endothelial growth factor drugs treatment, SO2-V is unchanged.