Study on anisotropy orientation due to well-ordered fibrous biological microstructures.

IF 3 3区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Journal of Biomedical Optics Pub Date : 2024-05-01 Epub Date: 2024-02-28 DOI:10.1117/1.JBO.29.5.052919
Zhidi Liu, Jiawei Song, Qiqi Fu, Nan Zeng, Hui Ma
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引用次数: 0

Abstract

Significance: Most biological fibrous tissues have anisotropic optical characteristics, which originate from scattering by their fibrous microstructures and birefringence of biological macromolecules. The orientation-related anisotropic interpretation is of great value in biological tissue characterization and pathological diagnosis.

Aim: We focus on intrinsic birefringence and form birefringence in biological tissue samples. By observing and comparing the forward Mueller matrix of typical samples, we can understand the interpretation ability of orientation-related polarization parameters and further distinguish the sources and trends of anisotropy in tissues.

Approach: For glass fiber, silk fiber, skeletal muscle, and tendon, we construct a forward measuring device to obtain the Mueller matrix image and calculate the anisotropic parameters related to orientation. The statistical analysis method based on polar coordinates can effectively analyze the difference in anisotropic parameters.

Results: For those birefringent fibers, the statistical distribution of fast-axis values derived from Mueller matrix polar decomposition was found to exhibit bimodal characteristics, which is a key point in distinguishing the single-layer birefringent fiber sample from a layered, multioriented fibrous sample. The application conditions and interference factors of anisotropic orientation parameters are analyzed. Based on the parameters extracted from the orientation bimodal distribution, we can evaluate the relative change trend of intrinsic birefringence and form birefringence in anisotropic samples.

Conclusions: The cross-vertical bimodal distribution of the fast axis of anisotropic fibers is beneficial to accurately analyze the anisotropic changes in biological tissues. The results imply the potential of anisotropic orientation analysis for applications in pathological diagnosis.

研究有序纤维状生物微结构导致的各向异性取向。
意义重大:大多数生物纤维组织都具有各向异性的光学特征,这些特征源于其纤维微结构的散射和生物大分子的双折射。与取向相关的各向异性解释在生物组织表征和病理诊断中具有重要价值。通过观察和比较典型样品的正向穆勒矩阵,我们可以了解与取向相关的偏振参数的解释能力,并进一步区分组织中各向异性的来源和趋势:方法:针对玻璃纤维、丝纤维、骨骼肌和肌腱,我们构建了一个正向测量装置,以获取穆勒矩阵图像,并计算与取向相关的各向异性参数。基于极坐标的统计分析方法可有效分析各向异性参数的差异:对于那些双折射纤维,通过穆勒矩阵极坐标分解得出的快轴值统计分布呈现出双峰特征,这是区分单层双折射纤维样品和分层多取向纤维样品的关键点。分析了各向异性取向参数的应用条件和干扰因素。根据从取向双峰分布中提取的参数,我们可以评估各向异性样品中本征双折射和形貌双折射的相对变化趋势:各向异性纤维快轴的交叉垂直双峰分布有利于准确分析生物组织的各向异性变化。这些结果意味着各向异性取向分析在病理诊断中的应用潜力。
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
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.
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