Treatment of macular hole associated retinal detachment in high myopia has progressively evolved over the years, including the scleral buckling, simple intravitreal gas injection, pars plana vitrectomy (PPV), PPV combined with internal limiting membrane (ILM) peeling or transplantation and so on. Simple vitreous gas injection is less traumatic and good for the patients with small holes and localized retinal detachment. PPV combined with ILM peeling can achieve better treatment effects for small holes with wide retinal detachment. But for large holes with wide retinal detachment, PPV combined with ILM transplantation is necessary to improve the macular holes closure rate. If the ILM has been peeled before, the lens capsule could be a nice substitute for ILM. The scleral surgery can solve the problem of posterior scleral staphyloma and effectively control the elongation of the axial length. However, there is still no one surgery could deal with all the problems of high myopia, we should consider all the circumstances like the size of the macular hole and the range of the retinal detachment to choose the best individualized therapy.
ObjectiveTo observe and analyze the macular microvascular system changes in unilateral pediatric uveitis (PU) and healthy contralateral eyes. MethodsA cross-sectional case-control study. From January 2019 to July 2021, 21 eyes of 21 patients with PU diagnosed in one eye (PU group), 21 unaffected contralateral eyes (contralateral eye group), and 21 age-matched volunteers with 21 eyes (NC group) during the same period were examined in Peking Union Medical College Hospital. Optical coherence tomography angiography was used to scan the 6 mm × 6 mm fundus macular area in the three groups of selected eyes to measure the vessel density of the superficial capillary plexus (SCP) and deep capillary plexus (DCP) of the retina, the area of the avascular zone (FAZ) in the fovea of the macula, the choroidal thickness under the fovea (SFCT), and the retinal thickness in the fovea of the macula (CRT). The device comes with a software choriocapillary flow measurement tool, which can obtain the macula's choriocapillary density (CCD) with the fovea as the center and the diameter of the annular area of 1.0 mm, 1.5 mm, and 3.0 mm, respectively. They were recorded as CCD-1.0, CCD-1.5, and CCD-3.0. The measurement data of multiple groups were compared by analysis of variance; if the variance of the three groups of data was not uniform, the Kruskal-Wallis test was used. Multiple linear regression analysis was used to evaluate the potentially related factors of CCD. ResultsCompared with the contralateral eye group and the NC group, the vessel density of SCP (H=-13.857, -25.500; P=0.043, P<0.001), DCP (H=-15.333, -31.595; P=0.007, P<0.001) and CCD-1.0 (H=-14.000, -16.214; P=0.040, 0.012) of the clinically quiescent PU group were significantly decreased. CRT and FAZ were not statistically different between PU and NC groups (F=0.955; P=1.000, 0.661). Compared with the NC group, the mean vessel density of SCP and DCP in the contralateral eye group decreased, and the difference in DCP vessel density was statistically significant (H=-16.262, P=0.004). There was no statistically significant difference between the CCD of two groups (P=1.000). The SFCT of the PU group was significantly thicker than that of the NC group (F=5.552, P=0.004), however, difference was not statistically significant from the fellow eye group (F=5.552, P=0.270). The results of multiple linear regression analysis revealed that the CCD-1.0, CCD-1.5, and CCD-3.0 showed a linear correlation with the area of FAZ (β=-0.494, -0.527, -0.566; P=0.015, 0.009, 0.010) and CRT (β=-0.322, -0.466, -0.342; P=0.026, 0.002, 0.028). CCD-1.0 and CCD-1.5 showed a linear correlation with the vessel density of DCP (β=0.277, 0.275; P=0.047, 0.045). ConclusionBoth retinal and choroidal microvasculature are abnormal in resting eyes with PU, and macular circulation disorders may be present in the unaffected fellow eye.