弥漫性血相光学各向异性结构的mueller -矩阵干涉多重分形标度：基础与应用

Journal of biophotonics Pub Date : 2025-01-06 DOI:10.1002/jbio.202400412

Yurii Ushenko, Alexander Ushenko, Alexander Dubolazov, Iryna Soltys, Olexandra Litvinenko, Oleh Wanchuliak, Yulia Sarkisova, Ivan Mikirin, Olexander Salega, Jun Zheng, Lin Bin

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摘要

本文介绍了一种利用激光偏振干涉相位扫描分离物体场的单一散射分量的漫射血相复杂振幅场的数字全息重建技术。该方法为开发血液相多晶结构中线性和圆形双折射参数的mueller矩阵重建算法奠定了基础。应用统计（1 -4阶中心矩）和多重分形分析（分维谱）研究了血液脱水过程中多晶网络的光学各向异性图。该研究探讨了在失血量鉴别诊断中的实际应用，确定高阶中心矩（偏度，峰度）作为敏感标记。该方法鉴别失血量的准确率最高可达92.9%。

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Mueller-Matrix Interferometric Multifractal Scaling of Optically Anisotropic Architectonics of Diffuse Blood Facies: Fundamental and Applied Aspects.

The article describes a technique for digital holographic reconstruction of complex amplitude fields in diffuse blood facies using laser polarization-interference phase scanning to isolate a single scattered component of the object field. This method serves as the basis for developing algorithms for Mueller-matrix reconstruction of linear and circular birefringence parameters in the polycrystalline architectonics of blood facies. Statistical (central moments of the 1st-4th orders) and multifractal analyses (fractal dimension spectra) are applied to study the optical anisotropy maps of polycrystalline networks during blood dehydration. The study explores a practical application in the differential diagnosis of blood loss volume, identifying higher-order central moments (skewness, kurtosis) as sensitive markers. The method achieved a maximum accuracy of 92.9% in differentiating blood loss volume.

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Journal of biophotonics

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