人眼视神经头和视盘周围组织对急性眼压升高的机械变形。

Mechanical Deformation of Human Optic Nerve Head and Peripapillary Tissue in Response to Acute IOP Elevation.

机构信息

Department of Biomedical Engineering, Ohio State University, Columbus, Ohio, United States.

Biophysics Interdisciplinary Group, Ohio State University, Columbus, Ohio, United States.

出版信息

Invest Ophthalmol Vis Sci. 2019 Mar 1;60(4):913-920. doi: 10.1167/iovs.18-26071.

DOI:10.1167/iovs.18-26071

PMID:30835783

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6402264/

Abstract

PURPOSE

To measure the deformation of the human optic nerve head (ONH) and peripapillary tissue (PPT) in response to acute intraocular pressure (IOP) elevation.

METHODS

The ONH and PPT of 14 human donor globes were imaged with high-frequency ultrasonography during inflation testing from 5 to 30 mm Hg. A correlation-based speckle tracking algorithm was used to compute tissue displacements, and the through-thickness, in-plane, and shear strains were calculated by using least-squares strain estimation methods. The ONH and PPT were segmented along the anterior-posterior direction and the nasal-temporal direction. Regional displacements and strains were analyzed and compared.

RESULTS

The ONH displaced more posteriorly than the PPT in response to an acute IOP increase. Scleral canal expansion was minimal but correlated with ONH posterior displacement at all IOP levels. Through-thickness compression was concentrated in the anterior of both the ONH and the PPT. Shear was concentrated in the vicinity of the canal with higher shear in the peripheral ONH than the central ONH and higher shear in the PPT near the scleral canal than that further away from the canal.

CONCLUSIONS

High-resolution ultrasound speckle tracking showed a displacement mismatch between the ONH and the PPT, larger compressive strains in the direction of IOP loading in the anterior ONH and PPT, and higher shear strains in the periphery of ONH in response to acute IOP elevation in the human eye. These findings delineate the deformation patterns within and around the ONH and may help understand IOP-associated optic nerve damage.

摘要

目的

测量人视神经头（ONH）和视盘周围组织（PPT）对急性眼内压（IOP）升高的变形。

方法

在从 5 至 30mmHg 的充气测试中，使用高频超声对 14 个人类供体眼球的 ONH 和 PPT 进行成像。使用基于相关的散斑跟踪算法计算组织位移，并使用最小二乘应变估计方法计算厚度方向、平面内和剪切应变。ONH 和 PPT 沿前后方向和鼻颞方向分段。分析和比较了区域位移和应变。

结果

ONH 在急性 IOP 增加时向后移位比 PPT 多。巩膜管扩张最小，但与所有 IOP 水平的 ONH 后向位移相关。厚度方向的压缩集中在前部 ONH 和 PPT 中。剪切集中在管附近，外围 ONH 的剪切高于中央 ONH，靠近巩膜管的 PPT 的剪切高于远离管的 PPT。

结论

高分辨率超声散斑跟踪显示，ONH 和 PPT 之间存在位移不匹配，前部 ONH 和 PPT 中眼压加载方向的压缩应变较大，急性 IOP 升高时外围 ONH 的剪切应变较高。这些发现描绘了 ONH 内部和周围的变形模式，可能有助于理解与 IOP 相关的视神经损伤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b9a/6402264/8336312cce05/i1552-5783-60-4-913-f01.jpg

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人眼视神经头和视盘周围组织对急性眼压升高的机械变形。

Mechanical Deformation of Human Optic Nerve Head and Peripapillary Tissue in Response to Acute IOP Elevation.

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