灵长类动物调节的超声生物显微镜的计算机图像分析

Computer image analysis of ultrasound biomicroscopy of primate accommodation.

作者信息

Schachar R A, Kamangar F

机构信息

Department of Physics, University of Texas at Arlington, Arlington, TX, USA.

出版信息

Eye (Lond). 2006 Feb;20(2):226-33. doi: 10.1038/sj.eye.6701838.

DOI:10.1038/sj.eye.6701838

PMID:15818391

Abstract

PURPOSE

To assess and correct images of the eye for movements that can confound the evaluation of the presence, direction, and magnitude of intraocular movement of the crystalline lens equator during centrally induced ciliary muscle contraction (accommodation).

METHOD

Ultrasound biomicroscopic (UBM) video images of a cynomologus monkey crystalline lens were obtained from an independent source. The images, prior to, during, and following electrical stimulation of the Edinger-Westphal (EW) nucleus were compared for evidence of movement of the crystalline lens equator. Extraocular eye movements were assessed by use of objective computer imaging analysis techniques.

RESULTS

Extraocular eye movements were identified and reduced by using objective computer imaging analysis techniques to register and realign the corneal images. Highly significant corrections are required to effect corneal realignment. Analysis of paired and registered images from this data source indicates that any movements of the primate lens equator are not detectable when maximum accommodation was induced by EW stimulation.

CONCLUSION

The displacement of the edge of the primate crystalline lens equator during electrically induced contraction of the ciliary muscle is a small displacement phenomenon, only analysable after confounding extraocular movements are removed from the compared images.

摘要

目的

评估并校正眼部图像，以消除在中央诱发睫状肌收缩（调节）过程中可能混淆晶状体赤道部眼内运动的存在、方向和幅度评估的运动。

方法

从独立来源获取食蟹猴晶状体的超声生物显微镜（UBM）视频图像。比较动眼神经核（EW）电刺激之前、期间和之后的图像，以寻找晶状体赤道部运动的证据。通过使用客观计算机成像分析技术评估眼外运动。

结果

通过使用客观计算机成像分析技术来配准和重新对齐角膜图像，识别并减少了眼外运动。需要进行高度显著的校正才能实现角膜重新对齐。对来自该数据源的配对和配准图像的分析表明，当通过EW刺激诱发最大调节时，灵长类动物晶状体赤道部的任何运动均无法检测到。

结论

在电诱发睫状肌收缩期间，灵长类动物晶状体赤道部边缘的位移是一种小位移现象，只有在从比较图像中消除混淆的眼外运动后才能进行分析。

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灵长类动物调节的超声生物显微镜的计算机图像分析

Computer image analysis of ultrasound biomicroscopy of primate accommodation.

作者信息

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSION

目的

方法

结果

结论

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