Terahertz Mie scattering in tissue: diffuse polarimetric imaging and Monte Carlo validation in highly attenuating media models.

IF 3 3区医学 Q2 BIOCHEMICAL RESEARCH METHODS

Journal of Biomedical Optics Pub Date : 2025-06-01 Epub Date: 2025-06-04 DOI:10.1117/1.JBO.30.6.066001

Erica Heller, Kuangyi Xu, Zachery B Harris, M Hassan Arbab

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引用次数: 0

Abstract

Significance: Changes in the structure of tissue occur in many disease processes, such as the boundaries of cancerous tumors and burn injuries. Spectroscopic and polarimetric alterations of terahertz light caused by Mie scattering patterns have the potential to be a diagnostic marker.

Aim: We present an analysis of Monte Carlo simulation of Mie scattering of polarized terahertz light from cancerous tumor budding, compare the simulation with experimental results obtained in phantom models, and present an analysis of a polarization-sensitive terahertz scan of an ex vivo porcine burn injury.

Approach: Using a Monte Carlo simulation, we modeled the changes in diffuse intensity and degree of polarization of broadband off-specular terahertz light due to scattering particles in highly attenuating tissue. We extracted the Mueller matrix of the tissue using this model and analyzed the Lu-Chipman product decomposition matrices. We compared this model with experimental data from four phantoms consisting of polypropylene particles of varying sizes embedded in gelatin. Finally, we induced a full-thickness burn injury in ex vivo porcine skin samples and compared experimental data captured over burned and healthy regions of the tissue.

Results: Simulation revealed contrast in the Stokes vectors and Mueller Matrix elements for varying scattering particle sizes. Experimental phantom results showed contrast between different sizes of scattering particles in degree of polarization and diffuse intensity in agreement with Monte Carlo simulation results. Finally, we demonstrated a similar diffused imaging signal contrast between burned and healthy regions of ex vivo porcine skin.

Conclusion: Polarimetric terahertz imaging has the potential to detect structural changes due to biological disease processes.

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组织中的太赫兹米氏散射：高度衰减介质模型中的漫射偏振成像和蒙特卡罗验证。

意义：组织结构的改变发生在许多疾病过程中，如癌性肿瘤和烧伤的边界。由米氏散射模式引起的太赫兹光的光谱和偏振变化有可能成为一种诊断标记。目的：我们对癌性肿瘤出芽时偏振太赫兹光的Mie散射进行了蒙特卡罗模拟分析，并将模拟结果与虚幻模型的实验结果进行了比较，并对离体猪烧伤损伤的偏振敏感太赫兹扫描进行了分析。方法：使用蒙特卡罗模拟，我们模拟了由于高衰减组织中散射粒子导致的宽带非镜面太赫兹光的漫射强度和极化程度的变化。利用该模型提取组织的Mueller矩阵，并对Lu-Chipman积分解矩阵进行分析。我们将这个模型与四个由不同大小的聚丙烯颗粒嵌入明胶组成的幻影的实验数据进行了比较。最后，我们在离体猪皮肤样本中诱导了全层烧伤，并比较了烧伤组织和健康组织区域的实验数据。结果：模拟显示了不同散射颗粒尺寸的Stokes矢量和Mueller矩阵元素的对比。实验模拟结果表明，不同尺寸的散射粒子在极化度和散射强度上的差异与蒙特卡罗模拟结果一致。最后，我们证明了在离体猪皮肤烧伤和健康区域之间类似的扩散成像信号对比。结论：极化太赫兹成像具有检测生物疾病过程引起的结构变化的潜力。

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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来源期刊

Journal of Biomedical Optics 医学-光学

CiteScore

6.40

自引率

5.70%

发文量

263

审稿时长

2 months

期刊介绍： The Journal of Biomedical Optics publishes peer-reviewed papers on the use of modern optical technology for improved health care and biomedical research.