OCT 视神经头形态在近视 II 中的研究：高近视中的神经周围管巩膜弓和脉络膜厚度——美国眼科学会论文。

OCT Optic Nerve Head Morphology in Myopia II: Peri-Neural Canal Scleral Bowing and Choroidal Thickness in High Myopia-An American Ophthalmological Society Thesis.

机构信息

From the Devers Eye Institute Optic Nerve Head Research Laboratory (C.F., J.R., H.Y.), Legacy Research Institute, Portland, Oregon, USA; Devers Eye Institute Discoveries in Sight Research Laboratories (C.F.B., S.G., J.R., B.F., H.Y.), Legacy Research Institute, Portland, Oregon, USA.

Beijing Institute of Ophthalmology (Y.X.W.), Beijing Tongren Eye Center, Beijing Tongren Hospital, Beijing, China.

出版信息

Am J Ophthalmol. 2023 Aug;252:225-252. doi: 10.1016/j.ajo.2023.03.002. Epub 2023 Mar 10.

DOI:10.1016/j.ajo.2023.03.002

PMID:36906092

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10492898/

Abstract

PURPOSE

To use optical coherence tomography (OCT) to characterize optic nerve head (ONH) peri-neural canal (pNC) scleral bowing (pNC-SB) and pNC choroidal thickness (pNC-CT) in 69 highly myopic and 138 healthy, age-matched, control eyes.

DESIGN

Cross-sectional, case control study.

METHODS

Within ONH radial B-scans, Bruch membrane (BM), BM opening (BMO), anterior scleral canal opening (ASCO), and pNC scleral surface were segmented. BMO and ASCO planes and centroids were determined. pNC-SB was characterized within 30° foveal-BMO (FoBMO) sectors by 2 parameters: pNC-SB-scleral slope (pNC-SB-SS), measured within 3 pNC segments (0-300, 300-700, and 700-1000 μm from the ASCO centroid); and pNC-SB-ASCO depth relative to a pNC scleral reference plane (pNC-SB-ASCOD). pNC-CT was calculated as the minimum distance between the scleral surface and BM at 3 pNC locations (300, 700, and 1100 μm from the ASCO).

RESULTS

pNC-SB increased and pNC-CT decreased with axial length (P < .0133; P < .0001) and age (P < .0211; P < .0004) among all study eyes. pNC-SB was increased (P < .001) and pNC-CT was decreased (P < .0279) in the highly myopic compared to control eyes, and these differences were greatest in the inferior quadrant sectors (P < .0002). Sectoral pNC-SB was not related to sectoral pNC-CT in control eyes, but was inversely related to sectoral pNC-CT (P < .0001) in the highly myopic eyes.

CONCLUSIONS

Our data suggest that pNC-SB is increased and pNC-CT is decreased in highly myopic eyes and that these phenomena are greatest in the inferior sectors. They support the hypothesis that sectors of maximum pNC-SB may predict sectors of greatest susceptibility to aging and glaucoma in future longitudinal studies of highly myopic eyes. NOTE: Publication of this article is sponsored by the American Ophthalmological Society.

摘要

目的

使用光学相干断层扫描（OCT）来描述视神经头（ONH）神经周围管（pNC）巩膜弯曲（pNC-SB）和 pNC 脉络膜厚度（pNC-CT），共纳入 69 例高度近视眼和 138 例健康、年龄匹配的对照组眼。

设计

横断面、病例对照研究。

方法

在 ONH 径向 B 扫描中，对视网膜色素上皮（RPE）、Bruch 膜（BM）、BM 开口（BMO）、前巩膜管开口（ASCO）和 pNC 巩膜表面进行分割。确定 BMO 和 ASCO 平面和质心。在 30° 视盘-中央凹旁（FoBMO）区内，通过 2 个参数描述 pNC-SB：pNC-SB 巩膜斜率（pNC-SB-SS），在 3 个 pNC 段内测量（距 ASCO 质心 0-300、300-700 和 700-1000μm）；以及相对于 pNC 巩膜参考平面（pNC-SB-ASCOD）的 pNC-SB-ASCO 深度。pNC-CT 计算为 3 个 pNC 位置（距 ASCO 300、700 和 1100μm）处的巩膜表面和 RPE 之间的最小距离。

结果

在所有研究眼内，pNC-SB 随眼轴长度（P<.0133；P<.0001）和年龄（P<.0211；P<.0004）增加，pNC-CT 随眼轴长度（P<.0133；P<.0001）和年龄（P<.0211；P<.0004）减少。与对照组相比，高度近视眼中 pNC-SB 增加（P<.001），pNC-CT 减少（P<.0279），且在下象限区更为显著（P<.0002）。在对照组眼中，节段性 pNC-SB 与节段性 pNC-CT 无相关性，但在高度近视眼中呈负相关（P<.0001）。

结论

我们的数据表明，高度近视眼中 pNC-SB 增加，pNC-CT 减少，且在下象限更为显著。这些现象支持了这样的假说，即最大的 pNC-SB 区可能预测高度近视眼未来纵向研究中最易发生老化和青光眼的区。注：本文的出版由美国眼科学会赞助。

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