Determination of birefringence of myocardial tissue based on PS-OCT with circularly polarized light as reference

International Conference on Photonics and Imaging in Biology and Medicine Pub Date : 2023-07-18 DOI:10.1117/12.2683117

Wangbiao Li, Ke Li, Dezi Li, Haiyu Chen, Wenliang Cao, Shufeng Zhuo, Hui Li, Zhifang Li

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Abstract

In this study, the modified spectral domain polarization-sensitive optical coherence tomography (SD PS-OCT) is proposed for determining the birefringence of the myocardial tissue. In this modified SD PS-OCT, the circular polarization state of light was generated before entering the beam splitter. Thus, the polarization states in the reference and sample arms are both circular, and the symmetry between them is good without using additional Quarter-Wave Plate (QWP), which reduce the dispersion effect. The results demonstrated that theoretical analysis for determination of birefringence including the phase retardance and the fast axis orientation based on Stokes parameters of backscattered from biological tissue, which is different from the traditional SD PS-OCT. In addition, the phase retardance and the fast axis orientation was used to differentiate the myocaridal tissue in the diastole of the cardiac cycle the from that in the systole of the cardiac cycle. The findings suggest that the SD PS-OCT be a potential tool for the real-time monitoring the change of the myocardial wall during the cardiac cycle.

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以圆偏振光为参比的PS-OCT测定心肌组织双折射

在本研究中，提出了改进的光谱域偏振敏感光学相干断层扫描(SD PS-OCT)来确定心肌组织的双折射。在这种改进的SD PS-OCT中，光在进入分束器之前产生圆偏振态。因此，在不使用额外的四分之一波片(QWP)的情况下，参考臂和样品臂的偏振态都是圆形的，并且它们之间的对称性很好，从而降低了色散效应。结果表明，基于生物组织背向散射Stokes参数确定双折射的相位延迟和快速轴向的理论分析与传统的SD PS-OCT不同。此外，还利用相延迟和快速轴向来区分心脏周期舒张期和收缩期的心肌组织。提示SD - PS-OCT可作为实时监测心脏周期内心肌壁变化的一种潜在工具。

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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International Conference on Photonics and Imaging in Biology and Medicine

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