In Vivo Imaging and Evaluation of Corneal Biomechanics After Corneal Transplantation by Optical Coherence Elastography.

Gang Shi, Yubao Zhang, Sizhu Ai, Yidi Wang, Yingji Li, Xingdao He, Xinhe Zheng
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Abstract

Postoperative corneal biomechanical evaluation is of great significance in clinical monitoring and management since corneal transplantation is one of the main methods to improve visual function. In this paper, we propose an OCE system based on a small ultrasound transducer to realize the in vivo detection of postoperative corneal elasticity in different directions. It was first validated and analyzed by different agar, and then the elasticity changes in normal cornea and post-transplant corneal implants and implant beds were further investigated. Compared with normal corneas, the shear wave velocity of the postoperative cornea decreased from 7.42 ± 1.71 m/s to 4.95 ± 0.35 m/s. Meanwhile, the shear wave velocity of the corneal implant bed was lower than that of the implanted sheet. Therefore, this study reports the first biomechanical measurement of corneal grafts based on the OCE technique, which might provide a potential tool for the postoperative evaluation of clinical patients.

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利用光学相干弹性成像技术对角膜移植后的角膜生物力学进行体内成像和评估。
角膜移植是改善视觉功能的主要方法之一,因此术后角膜生物力学评估在临床监测和管理中具有重要意义。本文提出了一种基于小型超声换能器的 OCE 系统,以实现术后角膜不同方向弹性的活体检测。首先通过不同的琼脂对其进行了验证和分析,然后进一步研究了正常角膜和移植后角膜植入物及植入床的弹性变化。与正常角膜相比,术后角膜的剪切波速度从 7.42 ± 1.71 m/s 降至 4.95 ± 0.35 m/s。同时,角膜植入床的剪切波速度低于植入片的剪切波速度。因此,本研究首次报道了基于 OCE 技术的角膜移植生物力学测量,这可能会为临床患者的术后评估提供一种潜在的工具。
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