Abstract
BackgroundThe pathogenesis of myopia has been found to be associated with the blood supply of the choroid. This study aimed to determine the relationship between the distribution pattern of choroidal remodeling and the degree of myopia in young patients.MethodsYoung patients (age < 18 years) with the spherical equivalent of less than − 12 diopters (D) were included. Spectral-domain optical coherence tomography (SD-OCT) with enhanced depth imaging (EDI) modality was used to measure the choroidal thickness (CT) and choroidal vascularity index (CVI) in the macular regions. CVI was calculated as the proportion of luminal area to choroidal area and was measured within 1 mm and 3 mm nasal (N1 and N3), temporal (T1 and T3), superior (S1 and S3), and inferior (I1 and I3) to the foveal center. CVI was compared across different ages (i.e., 5 ~ 9 years, 10 ~ 13 years, and 14 ~ 18 years), axial lengths (ALs) (i.e., 21.00 ~ 25.00 mm and 25.01 ~ 29.00 mm), and spherical equivalents (SEs) (i.e., SE > -0.5D, − 0.5 ~ − 3.0D, − 3.01 ~ − 6.0D, and < − 6.0D). Linear regression analysis was applied to assess the association between independent (i.e., age, AL, SE, and intraocular pressure) and dependent variables (i.e., CVI of different regions).ResultsOne hundred sixty-four eyes from 85 volunteers were included. The mean CT in the central foveal was 269.87 ± 63.32 μm (93.00 μm to 443.00 μm). The mean subfoveal-CVI was 67.66 ± 2.40% (57.84 to 79.60%). Multiple linear regression results revealed significant correlations between SE and T1-CVI (p < 0.05, r2 = 0.082, β = 0.194), N1-CVI (p < 0.05, r2 = 0.039, β = 0.212). Simple linear regression results revealed that T1-CVI (p < 0.05, r2 = 0.09) and T3-CVI (p < 0.05, r2 = 0.05) were negatively correlated with SE; N1-CVI (p < 0.05, r2 = 0.05) and N3-CVI (p < 0.05, r2 = 0.04) were negatively correlated with SE.ConclusionsCVI in the horizontal meridian underwent the largest change as myopia worsened. Temporal and nasal CVIs within the r = 1 mm, and r = 3 mm subfoveal range were positively associated with the degree of myopia in young patients. The CVI value may be used to assess the vascular status of the choroid and be a potential marker of myopic progression.
Highlights
Myopia has become the second leading cause of blindness worldwide and can create burdens on individuals and society [1]
Since 27 younger patients had difficulty cooperating for the Goldmann applanation tonometry (GAT) examination, we obtained reliable GAT-intraocular pressure (IOP) data from 111 eyes of 58 patients
choroidal vascularity index (CVI) in the horizontal meridian underwent the largest change as myopia worsened Temporal and nasal CVI within the r = 1 mm and r = 3 mm subfoveal range were positively associated with degree of myopia in young patients (Table 3, Fig. 2)
Summary
Myopia has become the second leading cause of blindness worldwide and can create burdens on individuals and society [1]. 95.5%, and high myopia accounts for about 19.5% [2]. A significant proportion of available research has been conducted in young myopic eyes, and long-lasting choroidal alterations have notable importance for myopic development [3, 4]. The choroid consists predominantly of blood vessels and is involved in numerous physiological processes of the eye [5]. Choroidal blood supply has been shown to be related to the pathogenesis of myopia [6], and choroidal thickness (CT) as well as choroidal vascularity index (CVI) are considered important measurement indexes for the status of choroid. The pathogenesis of myopia has been found to be associated with the blood supply of the choroid. This study aimed to determine the relationship between the distribution pattern of choroidal remodeling and the degree of myopia in young patients
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