Mechanical compression in cross-polarization OCT imaging of skin: In vivo study and Monte Carlo simulation

M. Kirillin, P. Agrba, V. Kamensky
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引用次数: 3

Abstract

Abstract Optical coherence tomography (OCT) is rapidly advancing into clinical practice beyond the area of ophthalmology. Many applications of OCT in areas such as dermatology, endoscopy and others require contact OCT probes which transfer compression to the studied tissues. This effect should be taken into account when developing methods for OCT diagnostics. On the other hand, controlled compression can provide additional diagnostic information and can serve as a diagnostic procedure. This paper discusses the effect of controlled mechanical compression induced by an OCT probe coupled with dynamometer on cross-polarization OCT images of skin. Registration of OCT images in two polarizations (parallel and orthogonal) allows additional information to be obtained about structural features of the studied tissue. An increase in contrast of epidermis/dermis junction and a decrease in contrast of stratum corneum/epidermis junction in OCT images are shown to originate from mechanical compression of human skin in vivo which could be associated with structural and functional changes induced by compression. In order to confirm the origin of the contrast in OCT images induced by mechanical compression, Monte Carlo simulations were performed; the results of which are in qualitative agreement with experimental results.
皮肤交叉偏振OCT成像中的机械压缩:体内研究和蒙特卡罗模拟
光学相干断层扫描(OCT)正在迅速进入眼科以外的临床实践。OCT在皮肤病学、内窥镜等领域的许多应用都需要接触式OCT探针,它将压力传递到被研究的组织。在开发OCT诊断方法时应考虑到这种影响。另一方面,受控压缩可以提供额外的诊断信息,并可以作为诊断过程。本文讨论了耦合测功仪的OCT探针诱导的可控机械压缩对皮肤交叉极化OCT图像的影响。在两个偏振(平行和正交)中对OCT图像进行配准,可以获得有关所研究组织结构特征的附加信息。OCT图像中表皮/真皮连接处对比度的增加和角质层/表皮连接处对比度的降低源于人体皮肤的机械压迫,这可能与压迫引起的结构和功能变化有关。为了确定机械压缩引起的OCT图像对比度的来源,进行了蒙特卡罗模拟;计算结果与实验结果定性一致。
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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