3D Characterization of corneal deformation using ultrasound speckle tracking.

IF 2.3 3区医学 Q2 OPTICS

Journal of Innovative Optical Health Sciences Pub Date : 2017-11-01 Epub Date: 2017-09-22 DOI:10.1142/S1793545817420056

Keyton Clayson, Elias Pavlatos, Yanhui Ma, Jun Liu

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引用次数: 10

Abstract

The three-dimensional (3D) mechanical response of the cornea to intraocular pressure (IOP) elevation has not been previously reported. In this study, we use an ultrasound speckle tracking technique to measure the 3D displacements and strains within the central 5.5 mm of porcine corneas during the whole globe inflation. Inflation tests were performed on dextran-treated corneas (treated with a 10% dextran solution) and untreated corneas. The dextran-treated corneas showed an inflation response expected of a thin spherical shell, with through-thickness thinning and in-plane stretch, although the strain magnitudes exhibited a heterogeneous spatial distribution from the central to more peripheral cornea. The untreated eyes demonstrated a response consistent with swelling during experimentation, with through-thickness expansion overriding the inflation response. The average volume ratios obtained in both groups was near 1 confirming general incompressibility, but local regions of volume loss or expansion were observed. These results suggest that biomechanical measurements in 3D provide important new insight to understand the mechanical response of ocular tissues such as the cornea.

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超声斑点跟踪角膜变形的三维表征。

角膜对眼内压升高的三维(3D)力学反应尚未见报道。在这项研究中，我们使用超声波斑点跟踪技术测量了整个全球膨胀期间猪角膜中心5.5 mm内的三维位移和应变。对右旋糖酐处理的角膜(用10%右旋糖酐溶液处理)和未处理的角膜进行充气试验。右旋糖酐处理的角膜表现出预期的薄球形壳的膨胀反应，通过厚度变薄和面内拉伸，尽管应变大小表现出从中心到更外围的非均匀空间分布。未经治疗的眼睛在实验中表现出与肿胀一致的反应，通过厚度膨胀压倒了膨胀反应。两组的平均体积比均接近1，证实了整体的不可压缩性，但观察到局部的体积损失或膨胀。这些结果表明，三维生物力学测量为理解角膜等眼部组织的力学反应提供了重要的新见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Innovative Optical Health Sciences OPTICS-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

CiteScore

4.50

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： JIOHS serves as an international forum for the publication of the latest developments in all areas of photonics in biology and medicine. JIOHS will consider for publication original papers in all disciplines of photonics in biology and medicine, including but not limited to: -Photonic therapeutics and diagnostics- Optical clinical technologies and systems- Tissue optics- Laser-tissue interaction and tissue engineering- Biomedical spectroscopy- Advanced microscopy and imaging- Nanobiophotonics and optical molecular imaging- Multimodal and hybrid biomedical imaging- Micro/nanofabrication- Medical microsystems- Optical coherence tomography- Photodynamic therapy. JIOHS provides a vehicle to help professionals, graduates, engineers, academics and researchers working in the field of intelligent photonics in biology and medicine to disseminate information on the state-of-the-art technique.