Spatial characterization of corneal biomechanical properties with optical coherence elastography after UV cross-linking

Michael D. Twa; Jiasong Li; Srilatha Vantipalli; Manmohan Singh; Salavat Aglyamov; Stanislav Emelianov; Kirill V. Larin

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Spatial characterization of corneal biomechanical properties with optical coherence elastography after UV cross-linking

机译：紫外交联后光学相干弹性成像技术表征角膜生物力学特性的空间特征

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Corneal collagen cross-linking (CXL) is a clinical treatment for keratoconus that structurally reinforces degenerating ocular tissue, thereby limiting disease progression. Clinical outcomes would benefit from noninvasive methods to assess tissue material properties in affected individuals. Regional variations in tissue properties were quantified before and after CXL in rabbit eyes using optical coherence elastography (OCE) imaging. Low-amplitude (1µm) elastic waves were generated using micro air-pulse stimulation and the resulting wave amplitude and speed were measured using phase-stabilized swept-source OCE. OCE imaging following CXL treatment demonstrates increased corneal stiffness through faster elastic wave propagation speeds and lower wave amplitudes.

机译：角膜胶原蛋白交联（CXL）是圆锥角膜的临床治疗方法，可在结构上增强退化的眼组织，从而限制疾病的进展。临床结果将从无创方法中受益，以评估受影响个体的组织材料特性。使用光学相干弹性成像（OCE）成像，对兔眼CXL前后的组织特性区域变化进行了定量。使用微空气脉冲刺激产生低振幅（<1µm）的弹性波，并使用相位稳定的扫频源OCE测量所得的波振幅和速度。 CXL治疗后的OCE成像表明，通过更快的弹性波传播速度和更低的波幅，角膜的硬度得以提高。

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《Biomedical Optics Express》 |2014年第5期|共9页
作者
Michael D. Twa; Jiasong Li; Srilatha Vantipalli; Manmohan Singh; Salavat Aglyamov; Stanislav Emelianov; Kirill V. Larin;
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中图分类生物科学;
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1. Effect of Tonicity and UV Riboflavin Cross-linking Treatment on Corneal Biomechanical Properties using Optical Coherence Elastography [J] . Vantipalli Srilatha, Li Jiasong, Singh Manmohan, Investigative ophthalmology & visual science . 2016,第12期

机译：张力和紫外线核糖蛋白交联治疗对角膜生物力学性能的影响利用光学相干弹性术
2. In vivo evaluation of corneal biomechanical properties by optical coherence elastography at different cross-linking irradiances [J] . Yuheng Zhou, Yuanyuan Wang, Meixiao Shen, Journal of biomedical optics . 2019,第10期

机译：通过光学相干弹性成像在不同交联辐照度下体内评估角膜的生物力学性能
3. Time-resolved detection of corneal UV Collagen Cross-linking (CXL) using Non-contact Optical Coherence Elastography (OCE) [J] . Wallace Ryan, Kirby Mitchell, Gao Liang, Investigative ophthalmology & visual science . 2019,第9期

机译：使用非接触光学相干弹性术（OCE）的角膜UV胶原交联（CXL）的时间分辨检测
4. Spatial mapping of the biomechanical properties of rabbit cornea after cross-linking using optical coherence elastography [C] . Jiasong Li, Manmohan Singh, Srilatha Vantipalli, Optical Elastography and Tissue Biomechanics II . 2015

机译：光学相干弹性成像技术对兔角膜交联后生物力学特性的空间定位
5. Development and Application of Optical Coherence Elastography for Detection of Mechanical Property Changes Occurring in Early Osteoarthritis. [D] . Hirota, Koji. 2017

机译：光学相干弹性成像技术在早期骨关节炎中发生的力学性质变化检测中的开发和应用。
6. Spatial characterization of corneal biomechanical properties with optical coherence elastography after UV cross-linking [O] . Michael D. Twa, Jiasong Li, Srilatha Vantipalli, 2014

机译：紫外交联后光学相干弹性成像技术表征角膜生物力学特性的空间特征
7. Depth-Dependent Corneal Biomechanical Properties in Normal and Keratoconic Subjects by Optical Coherence Elastography [O] . Vinicius S. De Stefano, Matthew R. Ford, Ibrahim Seven, 2020

机译：光学相干弹性造影的正常和角振来受试者中深度依赖性角膜生物力学性能

Spatial characterization of corneal biomechanical properties with optical coherence elastography after UV cross-linking

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