与近视眼轴延长相关的解剖学特点。

Anatomic Peculiarities Associated with Axial Elongation of the Myopic Eye.

作者信息

Jonas Jost B, Bikbov Mukharram M, Wang Ya-Xing, Jonas Rahul A, Panda-Jonas Songhomitra

机构信息

Department of Ophthalmology, Medical Faculty Mannheim of the Ruprecht-Karis-University, 68167 Mannheim, Germany.

Institute for Clinical and Scientific Ophthalmology and Acupuncture Jonas & Panda, 69120 Heidelberg, Germany.

出版信息

J Clin Med. 2023 Feb 7;12(4):1317. doi: 10.3390/jcm12041317.

DOI:10.3390/jcm12041317

PMID:36835853

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9966891/

Abstract

PURPOSE

To describe anatomical peculiarities associated with axial elongation in the human myopic eye.

METHODS

Reviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clinical investigations of myopic patients and non-myopic individuals.

RESULTS

Myopic axial elongation is associated with a change from a mostly spherical eye shape to a prolate ellipsoid form. It is combined with choroidal and scleral thinning, most pronounced at the posterior pole and less pronounced in the fundus midperiphery. In the fundus midperiphery, the retina and density of the retinal pigment epithelium (RPE) and photoreceptors decrease with a longer axial length, while in the macular region, retinal thickness, RPE cell density, and choriocapillaris thickness are not related to axial length. With axial elongation, a parapapillary gamma zone develops, leading to an enlargement of the optic disc-fovea distance and a decrease in angle kappa. Axial elongation is also correlated with an increase in the surface and volume of Bruch's membrane (BM), while BM thickness remains unchanged. Axial elongation causes moderately myopic eyes to show a shift of BM opening to the foveal direction so that the horizontal disc diameter becomes shorter (with a consequent vertical ovalization of the optic disc shape), a temporal gamma zone develops, and the optic nerve exit takes an oblique course. Features of high myopia are an enlargement of the RPE opening (myopic parapapillary beta zone) and BM opening (secondary macrodisc), elongation and thinning of the lamina cribrosa, peripapillary scleral flange (parapapillary delta zone) and peripapillary choroidal border tissue, secondary BM defects in the macular region, myopic maculoschisis, macular neovascularization, and cobblestones in the fundus periphery.

CONCLUSIONS

These features combined may be explained by a growth in BM in the fundus midperiphery leading to axial elongation.

摘要

目的

描述与人类近视眼中轴伸长相关的解剖学特点。

方法

回顾先前对摘除的人眼球进行组织形态计量学研究的结果，以及回顾在基于人群的研究和以医院为基础的对近视患者及非近视个体的临床研究中获得的发现。

结果

近视性轴伸长与眼球形状从大多为球形向长椭圆形的转变相关。它与脉络膜和巩膜变薄同时出现，在眼球后极最为明显，在眼底中周部则不太明显。在眼底中周部，随着眼轴长度增加，视网膜、视网膜色素上皮（RPE）和光感受器的密度降低，而在黄斑区，视网膜厚度、RPE细胞密度和脉络膜毛细血管层厚度与眼轴长度无关。随着轴伸长，视乳头旁γ区形成，导致视盘-黄斑距离增大和kappa角减小。轴伸长还与布鲁赫膜（BM）的表面积和体积增加相关，而BM厚度保持不变。轴伸长使中度近视眼的BM开口向黄斑方向移位，从而使视盘水平直径变短（导致视盘形状垂直椭圆化），颞侧γ区形成，视神经出口呈斜行。高度近视的特征包括RPE开口扩大（近视性视乳头旁β区）和BM开口扩大（继发性大视盘）、筛板伸长和变薄、视乳头周围巩膜凸缘（视乳头旁δ区）和视乳头周围脉络膜边界组织、黄斑区继发性BM缺陷、近视性黄斑劈裂、黄斑新生血管形成以及眼底周边部的铺路石样改变。

结论

这些特征综合起来可能是由于眼底中周部BM生长导致轴伸长所致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/89f4/9966891/904133415242/jcm-12-01317-g001.jpg

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与近视眼轴延长相关的解剖学特点。

Anatomic Peculiarities Associated with Axial Elongation of the Myopic Eye.

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