POSSIBILITIES OF APPLICATION OF LASER POLARIZATION METHODS FOR THE DETECTION OF PATHOLOGICAL PROCESSES IN THE LIVER TISSUE WITH TEMPORARY MONITORING OF THE DYNAMICS OF CHANGES DEPENDING ON THE TIME SINCE DEATH

Forensic-medical examination Pub Date : 2022-08-05 DOI:10.24061/2707-8728.1.2022.8

Ihor Davydenko

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Abstract

The article presents the current state of issues regarding the diagnosis of liver fibrosing processes. Particular attention is paid to biophysical research methods that have evidence of accuracy, objectivity, reproducibility of results.Aim of the work. Exploring the possibilities of using azimuthal-invariant Mueller-matrix analysis to establish the relationship between changes in the morphological structure of liver tissue and its optical parameters in normal and fi brosing processes.Materials and methods. The object of the study were histological sections of human liver in normal (control group) and in the presence of fibrosing processes, selected from 106 corpses of both sexes at diff erent intervals after death. Histological sections of the liver were obtained using a freezing microtome. The studies were performed using a standard spectropolarimeter scheme. The obtained results were processed according to standard algorithms of MATLAB and Statistica software products.Results. According to the results of the study, it was found that in the liver tissue with fibrous changes, the values of the average S1 are (1,870±0,017), dispersion S2 – (0,617±0,010), asymmetry S3 – (1,921±0,022), excess S4 – (2,005±0,044). In intact liver tissue, the values were: S1 – (1,264±0,017), S2 – (0,537±0,018), S3 – (1,650±0,022), S4 – (1,584±0,032).Conclusion. The method of azimuthal-invariant Mueller-matrix analysis allows to describe in detail the structure and characteristics of biological tissues of the human body, in particular the liver in normal and fi brosing processes, with the possibility of their statistically signifi cant differentiation.The interval of dynamics of change of statistical moments of the 1st-4th orders from 1 to 48 hours after death is established that becomes extremely actual in practice of the forensic expert at the decision of important questions.

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应用激光偏振方法检测肝组织病理过程的可能性，并根据死亡后的时间对变化动态进行临时监测

本文介绍了目前关于肝纤维化过程诊断的问题。特别注意的是生物物理研究方法，有证据表明准确性，客观性，结果的可重复性。工作的目的。探索利用方位不变穆勒矩阵分析建立正常和扫描过程中肝组织形态结构变化与其光学参数之间关系的可能性。材料和方法。本研究选取了106具男女尸体，在死亡后不同时间间隔内正常(对照组)和有纤维化过程的人肝脏的组织学切片。使用冷冻切片机获得肝脏的组织学切片。研究是使用标准分光偏振计方案进行的。根据MATLAB和Statistica软件产品的标准算法对所得结果进行处理。根据研究结果发现，在有纤维性改变的肝组织中，平均S1值为(1870±0,017)，分散S2 -(0,617±0,010)，不对称S3 -(1,921±0,022)，过量S4 -(2,005±0,044)。在完整肝组织中，其值分别为:S1 -(1,264±0,017)，S2 -(0,537±0,018)，S3 -(1,650±0,022)，S4 -(1,584±0,032)。方位角不变穆勒矩阵分析方法可以详细描述人体生物组织的结构和特征，特别是肝脏在正常和异常过程中的结构和特征，并具有统计学上显著分化的可能性。确立了死亡后1 ~ 48小时统计矩的1 ~ 4阶动态变化的时间间隔，这在法医鉴定重大问题的实践中具有极其实际的意义。

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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Forensic-medical examination

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