Università Politecnica delle Marche, Dipartimento di Scienze Biomediche e Sanità Pubblica, Italy.
Med Sci Law. 2021 Jan;61(1_suppl):36-41. doi: 10.1177/0025802420942423.
Defining extreme temperatures as the cause of death remains challenging. It is mostly based on circumstantial, macroscopic and microscopic features.
We retrospectively compared groups of cases of fatal hypothermia, fatal hyperthermia and non-extreme temperature-related deaths. We analysed specific histological findings, focusing on samples from the liver, pancreas and kidney.
Between 1 January 2013 and 31 December 2016, 15 autopsies were performed for deaths related to extreme temperatures. They included 11 cases of fatal hypothermia (group A), four cases of fatal hyperthermia (group B) and eight controls (group C). Perinuclear hepatocyte vacuolisation was observed in seven cases of hypothermia, one case of hyperthermia and four controls. Pancreatic cytoarchitecture was well preserved in two cases of hypothermia, one case of hyperthermia and two controls. No particular microscopic feature was found in pancreatic samples. Renal epithelial tubular cell vacuolisation was observed in seven cases of hypothermia and one case of hyperthermia, while it was absent in all controls. Chromogranin A (CgA) was markedly positive in the pancreatic tissue of five cases of fatal hypothermia and one control, and mildly positive in one case of fatal hyperthermia. No significant -values were observed for any comparisons ( > 0.05), except when hypothermia cases group were compared to the control group for the Armanni-Ebstein phenomenon test ( = 0.0078).
Although our study did not find a specific microscopic marker, hepatocyte vacuolisation, the Armanni-Ebstein phenomenon and pancreatic CgA positivity, taken together, may be useful tools to confirm hypo- and hyperthermia-related deaths, in addition to circumstantial and macroscopic findings.
将极端温度定义为死因仍然具有挑战性。这主要基于间接的、宏观和微观特征。
我们回顾性地比较了致命低体温、致命高温和非极端温度相关死亡的病例组。我们分析了特定的组织学发现,重点是来自肝脏、胰腺和肾脏的样本。
2013 年 1 月 1 日至 2016 年 12 月 31 日,共进行了 15 例与极端温度相关的死亡尸检。其中包括 11 例致命性低体温(A 组)、4 例致命性高温(B 组)和 8 例对照(C 组)。在 7 例低体温、1 例高温和 4 例对照中观察到核周肝细胞空泡化。2 例低体温、1 例高温和 2 例对照中胰腺细胞结构保存良好。在 7 例低体温和 1 例高温中观察到肾小管上皮细胞空泡化,而在所有对照中均未见。在 5 例致命性低体温和 1 例对照中,CgA 在胰腺组织中呈明显阳性,在 1 例致命性高温中呈弱阳性。除了 Armanni-Ebstein 现象试验中低体温组与对照组比较( = 0.0078)外,所有比较的 p 值均无显著差异(>0.05)。
尽管我们的研究没有发现特定的微观标志物,但肝细胞空泡化、Armanni-Ebstein 现象和胰腺 CgA 阳性,结合起来可能有助于确认低温和高温相关死亡,除了间接和宏观发现。
