Analysis of image formation in optical palpation.

R Jones, Q Fang, B F Kennedy
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Abstract

Optical palpation is an emerging elastography technique that generates two-dimensional images of mechanical stress at the tissue surface, with clinical applications such as intraoperative cancer detection and scar assessment. It has been implemented using various imaging systems, however, an analysis of how deformation of the sample and layer influences image formation has not been performed. Here, an analysis framework is presented, which assesses performance independently of the imaging system used. Optical palpation of varying samples and layers is simulated using finite element analysis and validated with experiments on silicone phantoms, providing a characterization of detectability, feature resolution, and contrast ratio. Using our framework, we demonstrate that computational optical palpation, which incorporates realistic assumptions of layer deformation, improves the feature resolution up to a factor of four. This framework can guide the development of optical palpation and aid in the selection of appropriate imaging system and layer properties for a given application.

光学触诊图像形成分析。
光学触诊是一种新兴的弹性成像技术,可生成组织表面机械应力的二维图像,临床应用包括术中癌症检测和疤痕评估。该技术已通过各种成像系统实现,但尚未对样本和层的变形如何影响图像形成进行分析。本文提出了一个分析框架,可独立于所使用的成像系统评估性能。利用有限元分析模拟了不同样本和层的光学触诊,并通过硅胶模型实验进行了验证,提供了可探测性、特征分辨率和对比度的特征。利用我们的框架,我们证明了计算光学触诊结合了真实的层变形假设,可将特征分辨率提高达四倍。这个框架可以指导光学触诊的开发,并帮助为特定应用选择合适的成像系统和层特性。
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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