Development of an Optical Elastomicroscopy for Imaging Tissue Elasticity in High Resolution

Minhua Lu, Qinghua Huang, Siping Chen, Yongping Zheng
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Abstract

Articular cartilage is a thin but crucial tissue layer which plays an important role in diarthrodial joints. During the last decade, the quantitative ultrasound technique, especially the high frequency ultrasound elasticity measurement technique, called as ultrasound elastomicroscopy (UEM), has been widely employed as a versatile modality to investigate the articular cartilage. Ultrasound elastomicroscopy can measure the deformation of different layers of articular cartilage under compression, but whether the propagation of ultrasound in tissues was changed or not with the imposed load is still unknown. In this study, we developed a new optical method to validate the accuracy and reliability of the ultrasound elastomicroscopy. Layered sponge phantoms were prepared for the experiments. During the compression, both the ultrasound and optical elastomicroscopy systems were employed to record the ultrasound signals and optical images from inside and the font of the phantoms. The deformations of the phantoms from different layers were tracked from both ultrasound and optical signals and were then compared. The preliminary results suggest that the measurements of the ultrasound elastomicroscopy system could be validated.
高分辨率组织弹性成像光学弹性显微镜的研制
关节软骨是一种薄而重要的组织层,在腹泻关节中起着重要作用。在过去的十年中,定量超声技术,特别是高频超声弹性测量技术,被称为超声弹性显微镜(UEM),作为一种通用的方式被广泛应用于研究关节软骨。超声弹性显微镜可以测量不同层关节软骨在压迫下的变形情况,但超声在组织中的传播是否随着施加的载荷而改变尚不清楚。在这项研究中,我们开发了一种新的光学方法来验证超声弹性显微镜的准确性和可靠性。为实验准备了层状海绵模型。在压缩过程中,超声和光学弹性显微镜系统分别记录了来自幻体内部和前部的超声信号和光学图像。利用超声和光学信号对不同层的幻像的变形进行了跟踪,然后进行了比较。初步结果表明,超声弹性显微系统的测量结果是可以验证的。
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