调节过程中眼前节变化的生物特征研究。

Biometric investigation of changes in the anterior eye segment during accommodation.

作者信息

Drexler W, Baumgartner A, Findl O, Hitzenberger C K, Fercher A F

机构信息

Institut für Medizinische Physik, Universität Wien, Austria.

出版信息

Vision Res. 1997 Oct;37(19):2789-800. doi: 10.1016/s0042-6989(97)00066-7.

DOI:10.1016/s0042-6989(97)00066-7

PMID:9373677

Abstract

Non-invasive biometry of the anterior structures of the human eye can be performed with unprecedented precision of 8-10 microns and a resolution of approximately 9 microns by partial coherence interferometry, which has the potential to assess the effect of cycloplegia on the ocular components of the anterior eye segment, to further improve the precision to 1-2 microns by the use of these agents and to quantify the amount of residual accommodations in different states of cycloplegia. In addition, the anterior chamber depth, the thickness of the crystalline lens, their changes during accommodation, as well as the movement of the anterior and posterior lens pole during accommodation can be quantified objectively and accurately to investigate the mechanism of accommodation.

摘要

通过部分相干干涉测量法，可以前所未有的精度（8 - 10微米）和大约9微米的分辨率对人眼前部结构进行非侵入性生物测量。这有可能评估睫状肌麻痹对眼前节眼部成分的影响，通过使用这些药物将精度进一步提高到1 - 2微米，并量化不同睫状肌麻痹状态下的残余调节量。此外，前房深度、晶状体厚度、它们在调节过程中的变化，以及调节过程中晶状体前后极的移动都可以被客观、准确地量化，以研究调节机制。

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调节过程中眼前节变化的生物特征研究。

Biometric investigation of changes in the anterior eye segment during accommodation.

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