A fundamental study on postmortem submersion interval estimation by metabolomics analyzing of gastrocnemius muscle from submersed rat models in freshwater.

IF 2.2 3区 医学 Q1 MEDICINE, LEGAL
International Journal of Legal Medicine Pub Date : 2024-09-01 Epub Date: 2024-05-28 DOI:10.1007/s00414-024-03258-4
Fu-Yuan Zhang, Lin-Lin Wang, Kuo Zeng, Wen-Wen Dong, Hui-Ya Yuan, Xing-Yu Ma, Zi-Wei Wang, Yu Zhao, Rui Zhao, Da-Wei Guan
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Abstract

In forensic practice, determining the postmortem submersion interval (PMSI) and cause-of-death of cadavers in aquatic ecosystems has always been challenging task. Traditional approaches are not yet able to address these issues effectively and adequately. Our previous study proposed novel models to predict the PMSI and cause-of-death based on metabolites of blood from rats immersed in freshwater. However, with the advance of putrefaction, it is hardly to obtain blood samples beyond 3 days postmortem. To further assess the feasibility of PMSI estimation and drowning diagnosis in the later postmortem phase, gastrocnemius, the more degradation-resistant tissue, was collected from drowned rats and postmortem submersion model in freshwater immediately after death, and at 1 day, 3 days, 5 days, 7 days, and 10 days postmortem respectively. Then the samples were analyzed with liquid chromatography-tandem mass spectrometry (LC-MS/MS) to investigate the dynamic changes of the metabolites. A total of 924 metabolites were identified. Similar chronological changes of gastrocnemius metabolites were observed in the drowning and postmortem submersion groups. The difference in metabolic profiles between drowning and postmortem submersion groups was only evident in the initial 1 day postmortem, which was faded as the PMSI extension. Nineteen metabolites representing temporally-dynamic patterns were selected as biomarkers for PMSI estimation. A regression model was built based on these biomarkers with random forest algorithm, which yielded a mean absolute error (± SE) of 5.856 (± 1.296) h on validation samples from an independent experiment. These findings added to our knowledge of chronological changes in muscle metabolites from submerged vertebrate remains during decomposition, which provided a new perspective for PMSI estimation.

Abstract Image

通过代谢组学分析淡水中沉水大鼠模型的腓肠肌,对死后沉水间隔估计的基础研究。
在法医实践中,确定尸体在水生生态系统中的淹没间隔(PMSI)和死因一直是一项具有挑战性的任务。传统方法还不能有效和充分地解决这些问题。我们之前的研究根据浸泡在淡水中的大鼠的血液代谢物,提出了预测 PMSI 和死因的新模型。然而,随着腐败的发展,很难获得死后 3 天以上的血液样本。为了进一步评估在死后晚期估算溺水指数和诊断溺水的可行性,研究人员分别在溺水大鼠和死后浸入淡水的模型中采集了死后1天、3天、5天、7天和10天的腓肠肌样本。然后用液相色谱-串联质谱(LC-MS/MS)分析样品,研究代谢物的动态变化。共鉴定出924种代谢物。溺水组和死后浸泡组的腓肠肌代谢物发生了相似的时序变化。溺水组和死尸浸没组之间代谢特征的差异仅在死后最初 1 天明显,这一天被淡化为 PMSI 延长期。我们选择了 19 种代表时间动态模式的代谢物作为生物标记物,用于估计 PMSI。根据这些生物标志物,采用随机森林算法建立了一个回归模型,在独立实验的验证样本上得出的平均绝对误差(± SE)为 5.856 (± 1.296) h。这些发现丰富了我们对沉水脊椎动物遗骸在分解过程中肌肉代谢物的时间变化的认识,为PMSI估算提供了新的视角。
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来源期刊
CiteScore
5.80
自引率
9.50%
发文量
165
审稿时长
1 months
期刊介绍: The International Journal of Legal Medicine aims to improve the scientific resources used in the elucidation of crime and related forensic applications at a high level of evidential proof. The journal offers review articles tracing development in specific areas, with up-to-date analysis; original articles discussing significant recent research results; case reports describing interesting and exceptional examples; population data; letters to the editors; and technical notes, which appear in a section originally created for rapid publication of data in the dynamic field of DNA analysis.
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