自然木乃伊化人类尸体头骨内容的 CT 分析，一项多中心研究

IF 3 3区医学 Q2 CLINICAL NEUROLOGY

Journal of Neuroradiology Pub Date : 2024-04-07 DOI:10.1016/j.neurad.2024.04.001

Maëlle Guéganton-Lecat , Romain Provost , Tania Delabarde , Claire Saccardy , Mathilde Ducloyer , Douraied Ben Salem

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引用次数: 0

摘要

本研究旨在评估自然木乃伊尸体的头骨内容物、大脑外观和死后计算机断层扫描密度。为此，我们进行了一项回顾性多中心研究，包括来自法国两个中心（布雷斯特和南特）和美国新墨西哥州尸体图像数据库的木乃伊尸体，对2011年至2022年间发现的部分或全部木乃伊尸体的头部和颈部进行了尸检计算机断层扫描（PMCT）分析。PMCT 分析提供了有关大脑 CT 外观的数据，可将其分为四个不同类别（干燥、液化、仅硬脑膜 (DMO) 和缺失），并测量大脑残骸的密度（HU）。此外，还收集并分析了南特和布雷斯特中心的尸检间隔（PMI）数据，以检验大脑密度与尸检间隔之间的联系。54 具自然木乃伊化的尸体被纳入其中。根据其 CT 外观，大脑被分为液化（56%）、干瘪（17%）、DMO（20%）和缺失（7%）。脱水大脑的密度（中位数 102 HU，四分位数间距 (IQR) 41）明显高于液化大脑（中位数 39.5 HU，四分位数间距 9）或 DMO 大脑（中位数 -25 HU，四分位数间距 57）。然而，大脑残骸的密度并没有受到尸体发现地点的显著影响（= 0.41）。对 22 个病例进行了 PMI 和大脑密度分析。结果表明，在超过六个月的 PMI 之后发现的大脑残骸密度明显更高（= 0.039）。脑干化是 PMCT 密度最高的方面，我们能够突出显示活生物体解剖结构的巨大保存力。

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CT analysis of skull contents in naturally mummified human corpses, a multicentric study

Introduction

This study aimed to assess skull contents, brain appearance, and density on postmortem computed tomography in naturally mummified corpses.

Material and Methods

For this purpose, a retrospective multicentric study, including mummified corpses from two French centers (Brest and Nantes) and from the New Mexico Decedent Image Database (USA), was performed by analyzing postmortem computed tomography (PMCT) focused on the head and neck of partially or fully mummified corpses discovered between 2011 and 2022. The PMCT analysis provided data on the CT appearance of brains, allowing them to be classified into four different categories (desiccation, liquefaction, dura mater only (DMO), and absence), and to measure densities (HU) of the brain remains. In addition, data on postmortem intervals (PMI) from Nantes and Brest centers were collected and analyzed to test the link between brain densities and PMIs.

Results

54 cases of naturally mummified corpses were included. The brains were classified as liquefied (56%), desiccated (17 %), DMO (20 %), and absent (7 %) based on their CT appearance. Dehydrated brains were significantly (p < 0.004) denser (median 102 HU, interquartile range (IQR) 41) than either liquefied brains (median 39.5 HU, IQR 9) or brains with DMO (median -25 HU, IQR 57). However, the density of brain remains was not significantly affected by where the bodies were found (p = 0,41). Analysis of PMI and brain densities was performed on 22 cases. The results showed that brain remains were significantly (p = 0.039) denser when they were found after a PMI of more than six months.

Conclusion

Brain desiccation was the aspect with the highest densities on PMCT, and for which we were able to highlight great preservation of anatomical structures observable in living organisms.

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来源期刊

Journal of Neuroradiology 医学-核医学

CiteScore

6.10

自引率

5.70%

发文量

142

审稿时长

6-12 weeks

期刊介绍： The Journal of Neuroradiology is a peer-reviewed journal, publishing worldwide clinical and basic research in the field of diagnostic and Interventional neuroradiology, translational and molecular neuroimaging, and artificial intelligence in neuroradiology. The Journal of Neuroradiology considers for publication articles, reviews, technical notes and letters to the editors (correspondence section), provided that the methodology and scientific content are of high quality, and that the results will have substantial clinical impact and/or physiological importance.