时间的关键:离体全血降解的荟萃分析

Colin I. Elliott, A. Shafer, T. Stotesbury
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引用次数: 0

摘要

估计血迹沉积后的时间可以为犯罪现场调查提供重要的法医学信息。这一领域的研究主要调查血红蛋白或遗传物质随时间的降解。在这项工作中,我们对血迹TSD研究进行了全面的荟萃分析。我们的结果来自25项定量研究,这些研究用于探测所研究的生物分子、所使用的分析技术、基质孔隙率、环境条件和血液来源对TSD估计的影响。在各研究中,时间总体上有很强的影响(Fisher Zr=1.66,r=0.93),通常,我们发现所研究的生物分子类型(如血红蛋白、DNA)对TSD估计具有相同的影响大小。在衬底孔隙率之间还观察到平均TSD效应大小的差异。有趣的是,血液来源对TSD估计中效应大小的大小没有显著影响。尽管时间有明显的影响,但由于供体间的变异性、底物类型和环境条件,血迹TSD的法律相关预测仍然很复杂。我们建议未来的血迹TSD研究增加样本量,包括汇总统计数据,并标准化实验方法,以便我们能够定量了解离体条件下全血降解所涉及的物理化学过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The crux of time: A meta-analysis of ex vivo whole blood degradation
Estimating the time since deposition (TSD) of a bloodstain can provide important medico-legal information for crime scene investigation. Research in this area primarily investigates the degradation of either hemoglobin or genetic material over time. In this work, we present a comprehensive meta-analysis on bloodstain TSD research. Our results are interpreted from 25 quantitative studies used to probe the effect of biomolecule studied, analytical technique used, substrate porosity, environmental conditions, and blood source on TSD estimates. There was an overall strong effect of time across studies (Fisher’s Zr = 1.66, r = 0.93), and generally, we found that the type of biomolecule studied (e.g., hemoglobin, DNA) had equal effect sizes for TSD estimation. Differences in the mean TSD effect size were also observed between substrate porosity. Interestingly, the blood source does not significantly influence the magnitude of the effect sizes in TSD estimation. Despite the clear effect of time, forensically relevant prediction of bloodstain TSD remains complicated by inter-donor variability, type of substrate and environmental conditions. We recommend that future bloodstain TSD research increase sample size, include summary statistics and standardize experimental methodologies so that we can develop a quantitative understanding of the physicochemical processes involved in whole blood degradation in ex vivo conditions.
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