原发性全层黄斑裂孔发育过程中视网膜内层复合体的移动：对发病机制假说的启示

Movement of the inner retina complex during the development of primary full-thickness macular holes: implications for hypotheses of pathogenesis.

作者信息

Woon Wai H, Greig Denis, Savage Mike D, Wilson Mark C T, Grant Colin A, Mokete Bataung, Bishop Fiona

机构信息

Department of Ophthalmology, St James' Hospital, Beckett St, Leeds, LS9 7LS, UK.

University of Leeds, Leeds, UK.

出版信息

Graefes Arch Clin Exp Ophthalmol. 2015 Dec;253(12):2103-9. doi: 10.1007/s00417-015-2951-0. Epub 2015 Feb 13.

DOI:10.1007/s00417-015-2951-0

PMID:25673252

Abstract

BACKGROUND

The inner retinal complex is a well-defined layer in spectral-domain OCT scans of the retina. The central edge of this layer at the fovea provides anatomical landmarks that can be observed in serial OCT scans of developing full-thickness macular holes (FTMH). Measurement of the movement of these points may clarify the mechanism of FTMH formation.

METHOD

This is a retrospective study of primary FTMH that had a sequence of two OCT scans showing progression of the hole. Measurements were made of the dimensions of the hole, including measurements using the central edge of the inner retinal complex (CEIRC) as markers. The inner retinal separation (distance between the CEIRC across the centre of the fovea) and the Height-IRS (average height of CEIRC above the retinal pigment epithelium) were measured.

RESULTS

Eighteen cases were identified in 17 patients. The average increase in the base diameter (368 microns) and the average increase in minimum linear dimension (187 microns) were much larger than the average increase in the inner retinal separation (73 microns). The average increase in Height-IRS was 103 microns.

CONCLUSION

The tangential separation of the outer retina to produce the macular hole is much larger than the tangential separation of the inner retinal layers. A model based on the histology of the Muller cells at the fovea is proposed to explain the findings of this study.

摘要

背景

视网膜内层复合体是视网膜光谱域光学相干断层扫描（OCT）中一个明确界定的层。该层在黄斑中心凹处的中央边缘提供了解剖学标志，可在发育中的全层黄斑裂孔（FTMH）的系列OCT扫描中观察到。测量这些点的移动可能会阐明FTMH形成的机制。

方法

这是一项对原发性FTMH的回顾性研究，该研究有一系列两次OCT扫描显示裂孔进展情况。对裂孔的尺寸进行了测量，包括以视网膜内层复合体的中央边缘（CEIRC）作为标志物进行测量。测量了视网膜内层分离（穿过黄斑中心凹的CEIRC之间的距离）和高度-视网膜内层分离（CEIRC高于视网膜色素上皮的平均高度）。

结果

在17例患者中识别出18个病例。基底直径的平均增加量（368微米）和最小线性尺寸的平均增加量（187微米）远大于视网膜内层分离的平均增加量（73微米）。高度-视网膜内层分离的平均增加量为103微米。

结论

外层视网膜产生黄斑裂孔的切线分离远大于内层视网膜层的切线分离。提出了一个基于黄斑中心凹处Muller细胞组织学的模型来解释本研究的结果。

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原发性全层黄斑裂孔发育过程中视网膜内层复合体的移动：对发病机制假说的启示

Movement of the inner retina complex during the development of primary full-thickness macular holes: implications for hypotheses of pathogenesis.

作者信息

机构信息

出版信息

BACKGROUND

METHOD

RESULTS

CONCLUSION

背景

方法

结果

结论

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