Temporal vascular arcade angle in fundus image was associated with the rate of spherical equivalent refractive error and axial length changes in myopia children with young school age

Purpose: To evaluate temporal vascular arcade angle and its influencing factors in myopic children. Methods: It was a retrospective study, we reviewed the records of 119 patients aged 6-10 years with myopia (spherical equivalent refractive error (SER) <=-0.05D) in the third year of follow-up in Beijing Hyperopia Reserve Research. We measured temporal vascular arcade angles on the fundus photographs and measured 3-year rate of spherical equivalent(D/year) and axial length (AXL) changes(mm/year). Results: Mean age at initial visit was 7.71+1.20 +1.20 years and mean SER was-1.32+1.09D. +1.09D. Children were divided into two groups according to the refractive status of children at baseline: Myopia onset group (SER>-0.50D at baseline) (n n = 107) and Myopia progression group (SER <=-0.50D <=-0.50D at baseline) (n n = 12). The mean SER in Myopia progression group was much smaller than Myopia onset group (P P < 0.001) and mean AXL in Myopia progression group was much longer than Myopia onset group (P P = 0.042). AXL (r=-0.320, r =-0.320, P < 0.001), SER change rate (r=- r =- 0.209, P = 0.022) and AXL change rate (r=-0.232, r =-0.232, P = 0.011) were associated with temporal vascular arcade angle in all participants. In Myopia onset group, AXL (r=-0.317, r =-0.317, P < 0.001) and AXL change rate (r=-0.190, r =-0.190, P = 0.05) were associated with temporal vascular arcade angle. There were no parameters were associated with temporal vascular arcade angle (all P > 0.05) in Myopia progression group. Only AXL (r=-0.306, r =-0.306, P = 0.018) was associated with temporal vascular arcade angle in girls while AXL (r=-0.370, r =-0.370, P = 0.004), SER change rate (r=- r =- 0.317, P = 0.013) and AXL change rate (r=-0.365, r =-0.365, P = 0.004) were all associated with the Angle in boys. Conclusion: Temporal vascular arcade angle was associated with the rate of SER and AXL changes in myopia onset children, and showed gender differences. These may suggest that lamina cribrosa location has different influencing factors in different genders and different stages of myopia development. Due to the small number of people in Myopia progression group, large sample size studies are still needed in the future.