Imaging the electro-kinetic response of biological tissues with phase-resolved optical coherence tomography

V. Demidov, V. Toronov, Yuan Xu, B. Vuong, Carry Sun, V. Yang, A. Vitkin
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引用次数: 1

Abstract

Abstract In this study, the electro-kinetic phenomena (EKP) induced in biological tissue by external electric field, while not directly visible in optical coherence tomography (OCT) images, were detected by analyzing their textural speckle features. During application of a low-frequency electric field to the tissue, speckle patterns changed their brightness and shape depending on the local tissue EKP. Since intensities of OCT image speckle patterns were analyzed and discussed in our previous publications, this work is mainly focused on OCT signal phase analysis. The algorithm for extracting local spatial phase variations from unwrapped phases is introduced. The detection of electrically induced optical changes manifest in OCT phase images shows promise for monitoring the fixed charge density changes within tissues through their electro-kinetic responses. This approach may help in the identification and characterization of morphology and function of healthy and pathologic tissues.
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用相位分辨光学相干断层成像技术研究生物组织的电动力学响应
摘要本研究通过分析生物组织的纹理散斑特征,检测了外电场在生物组织中引起的在光学相干断层扫描(OCT)图像中不直接可见的电动力学现象(EKP)。在对组织施加低频电场时,斑点图案根据局部组织EKP改变其亮度和形状。由于我们在之前的出版物中分析和讨论了OCT图像散斑模式的强度,因此本工作主要集中在OCT信号相位分析上。介绍了从未包裹相位中提取局部空间相位变化的算法。在OCT相位图像中检测电致光学变化显示了通过组织的电动力学响应来监测组织内固定电荷密度变化的前景。这种方法可能有助于识别和表征健康和病理组织的形态和功能。
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