使用多物理方法分析光学相干弹性成像中的图像形成。

Analysis of image formation in optical coherence elastography using a multiphysics approach.

作者信息

Chin Lixin, Curatolo Andrea, Kennedy Brendan F, Doyle Barry J, Munro Peter R T, McLaughlin Robert A, Sampson David D

机构信息

Optical + Biomedical Engineering Laboratory, School of Electrical, Electronic & Computer Engineering, The University of Western Australia, Crawley, Australia ; These authors contributed equally to this work.

Optical + Biomedical Engineering Laboratory, School of Electrical, Electronic & Computer Engineering, The University of Western Australia, Crawley, Australia.

出版信息

Biomed Opt Express. 2014 Aug 1;5(9):2913-30. doi: 10.1364/BOE.5.002913. eCollection 2014 Sep 1.

DOI:10.1364/BOE.5.002913

PMID:25401007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4230875/

Abstract

IMAGE FORMATION IN OPTICAL COHERENCE ELASTOGRAPHY (OCE) RESULTS FROM A COMBINATION OF TWO PROCESSES: the mechanical deformation imparted to the sample and the detection of the resulting displacement using optical coherence tomography (OCT). We present a multiphysics model of these processes, validated by simulating strain elastograms acquired using phase-sensitive compression OCE, and demonstrating close correspondence with experimental results. Using the model, we present evidence that the approximation commonly used to infer sample displacement in phase-sensitive OCE is invalidated for smaller deformations than has been previously considered, significantly affecting the measurement precision, as quantified by the displacement sensitivity and the elastogram signal-to-noise ratio. We show how the precision of OCE is affected not only by OCT shot-noise, as is usually considered, but additionally by phase decorrelation due to the sample deformation. This multiphysics model provides a general framework that could be used to compare and contrast different OCE techniques.

摘要

光学相干弹性成像（OCE）中的图像形成源于两个过程的结合：施加于样本的机械变形以及使用光学相干断层扫描（OCT）对由此产生的位移进行检测。我们提出了这些过程的多物理模型，通过模拟使用相敏压缩OCE获取的应变弹性图进行验证，并证明与实验结果密切相符。使用该模型，我们提供的证据表明，与之前所认为的相比，在相敏OCE中用于推断样本位移的常用近似对于较小变形无效，这会显著影响测量精度，如通过位移灵敏度和弹性图信噪比所量化的那样。我们展示了OCE的精度不仅如通常所认为的那样受OCT散粒噪声影响，还受样本变形导致的相位去相关影响。这个多物理模型提供了一个通用框架，可用于比较和对比不同的OCE技术。

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