Abstract
To evaluate the retinal vascular flow density changes of myopic eyes of young adults using optical coherence tomography angiography and the factors affecting these changes. In this cross-sectional study, 90 eyes of 45 participants were analyzed and divided into three groups: mild, moderate, and high myopia (without pathological changes). Macular and radial peripapillary capillary flow densities were measured using optical coherence tomography angiography. Their relationships with the axial length, the spherical equivalent of the refractive error, and age were analyzed using analysis of variance, Pearson’s correlation coefficient, and multivariate linear regression analysis. Superficial and deep macular vascular densities were significantly decreased in the high myopia group compared to the other groups. In the high myopia group, the nasal peripapillary flow density decreased, whereas the flow density inside the disc increased. The axial length negatively correlated with the superficial and deep macular vascular density, but positively correlated with the vascular density inside the disc. The spherical equivalent of the refractive error negatively correlated with the macular vascular density. The retinal vascular density decreased in the high myopia group. Hence, the microvascular network inside the disc may have a compensatory action in the hypoxic setting of high myopia.
Highlights
Myopia is the most common ocular condition worldwide
There was no statistical difference between the vessel densities in the superficial fovea (P = 0.40)
We found that the vascular densities in the superficial and deep macula and the nasal radial peripapillary capillary (RPC) layer were significantly lower in the high myopia group than in the other two groups
Summary
Myopia is the most common ocular condition worldwide. The prevalence of myopia is 26.5% and 11.7% in adults and children, respectively. Due to its high axial resolution, OCTA enables the visualization of the retinal vasculature in multiple layers, and retinal and choroidal blood flow assessment without intravenous agents. Using this technique, a previous study showed that retinal perfusion is reduced in myopia, whereas the area of insufficient blood flow in the choriocapillaris is increased[10]. Elucidating whether the blood perfusion changes in the macular and optic disc areas of the myopic eyes of young adults changes before the pathological changes in the fundus and determining the factors influencing these changes will help understand the changes. This study aimed to observe the changes in the retinal vascular densities of myopic eyes of young adults using OCTA, and study the relevant factors that influence these changes
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