Yukinori Sugano, Shunsuke Maeda, Yutaka Kato, Akihito Kasai, Shingo Tsuji, Masahiro Okamoto, Tetsuju Sekiryu
Scientific reports 2022 Sep 06We created three types of vessel models: vessel volume, surface, and line models from swept-source optical coherence tomography images and tested experimentally calculated three-dimensional (3D) biomarkers. The choroidal volume (CVolume), surface area (VSurface), and vessel length-associated index (VLI) were measured. The calculated 3D parameters were the mean choroidal thickness, choroidal vascularity index (CVI), vessel length density index (VLDI), vessel length to the stromal (VL-S) ratio, surface-to-volume ratio (S-V ratio), and vessel diameter index (VDI). Cluster analysis showed that the parameters were classified into two clusters: one was represented by the VVolume including the CVolume, VSurface, CVI, S-V ratio, VLI, VDI, and subfoveal choroidal thickness and the other by the VL-S ratio including the VLDI. Regarding the regional distribution, the VVolume, CVolume, VSurface, CVI, VLI, VL-S ratio, and VDI at the foveal center were higher than at the parafovea (P < 0.01). Although the VVolume decreased with age and axial length (AL) elongation, the association of the 3D parameters with age and AL elongation differed. The VLI, VLDI, VL-S ratio, and CVI decreased with age (P < 0.01) but not with AL elongation. The results suggested a structural difference in the choroidal vessel volume reduction between aging and AL elongation. The 3D parameters may provide additional information about the choroidal vasculature. © 2022. The Author(s).
Yukinori Sugano, Shunsuke Maeda, Yutaka Kato, Akihito Kasai, Shingo Tsuji, Masahiro Okamoto, Tetsuju Sekiryu. Morphometrics in three dimensional choroidal vessel models constructed from swept-source optical coherence tomography images. Scientific reports. 2022 Sep 06;12(1):15130
PMID: 36068250
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