Purpose: To investigate the difference between two-dimensionally measured disc diameters (DDs) based on fundus images and three-dimensionally measured DDs based on enhanced depth imaging optical coherence tomography (EDI-OCT). Methods: The DDs were three-dimensionally measured on EDI-OCT images of optic nerve heads and two-dimensionally measured on near-infrared reflectance fundus images in 90 normal eyes of 90 subjects. Disc rotation around sagittal axis was defined as the angle between maximal DD and vertical axis. Disc rotation around horizontal and vertical axes was defined as cosine of DD on fundus images divided by DD on EDI-OCT images. Results: Mean optic disc rotation around vertical axis was 14.4 ?± 9.3?°, rotation around sagittal axis was 23.0 ?± 21.3?°, and rotation around horizontal axis was 4.7 ?± 6.6?°. Horizontal, vertical, minimal, and maximal DDs as measured three-dimensionally were significantly (P 0.001) higher than those measured two-dimensionally. Difference between three-dimensional and two-dimensional measurement of horizontal DD and vertical DD was associated with axial length (r = 0.38; P 0.001, and r = 0.23; P = 0.03, respectively). Difference between three-dimensional and two-dimensional measurements was larger (P 0.001) for horizontal DD (69.6 ?± 68.1 ??m) than for vertical DD (14.8 ?± 25.6 ??m). Correspondingly, the ratio of maximal-to-minimal DD (ovality index) was significantly larger (P 0.001) for two-dimensional (1.33 ?± 0.21) than for three-dimensional (1.27 ?± 0.16) measurements. Conclusions: Two-dimensional measurement of DDs leads to falsely low results, more for horizontal DD than for vertical DD. The discrepancy between low two-dimensional compared to three-dimensional disc measurements increases with longer axial length. The angle of disc rotation around vertical and horizontal axes can be measured with EDI-OCT imaging.
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机译:目的:研究基于眼底图像的二维测得的椎间盘直径(DDs)与基于增强深度成像光学相干层析成像(EDI-OCT)的三维测得的DDs之间的差异。方法:在90名正常人的90只正常眼睛中,在视神经头的EDI-OCT图像上三维测量DD,在近红外反射眼底图像上二维测量DD。圆盘绕矢状轴的旋转定义为最大DD与垂直轴之间的角度。圆盘绕水平和垂直轴的旋转定义为眼底图像上DD的余弦除以EDI-OCT图像上的DD。结果:平均视盘绕垂直轴的旋转为14.4°±9.3°,绕矢状轴的旋转为23.0°±21.3°,而绕水平轴的旋转为4.7°±6.6°。三维测量的水平,垂直,最小和最大DD比二维测量的显着高(P <0.001)。水平DD和垂直DD的三维测量之间的差异与轴向长度有关(r = 0.38; P <0.001; r = 0.23; P = 0.03)。水平DD的三维测量值和二维测量值之间的差异较大(P <0.001)(69.6Ω±68.1Ωm),垂直DD的差异较大(P <0.001)(14.8Ω±25.6Ωm)。相应地,二维(1.33±0.21)的最大/最小DD(卵形指数)的比例明显大于三维(1.27±0.16)的最大(DD)(P <0.001)。结论:DDs的二维测量导致错误的低结果,水平DD比垂直DD的结果更多。低二维与三维磁盘测量之间的差异随着轴向长度的增加而增加。光盘绕垂直轴和水平轴的旋转角度可以使用EDI-OCT成像进行测量。
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