Success rate of rapid DNA technology in kinship analysis for forensic purpose.

IF 1.5 4区医学 Q2 MEDICINE, LEGAL

Forensic Science, Medicine and Pathology Pub Date : 2024-09-01 Epub Date: 2023-10-12 DOI:10.1007/s12024-023-00735-x

Tuğba Ünsal Sapan, Nasibe Yağmur Kartal, Şebnem Meherremli, Merve Erdem Obut, Kaan Yilancioğlu, Sevil Atasoy

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引用次数: 0

Abstract

Reducing the time required for DNA analysis in forensic genetics can yield significant benefits, both in determining genealogical relationships for legal proceedings and in criminal cases. Swift identification of individuals plays a pivotal role in solving crimes and apprehending perpetrators. Additionally, in situations like mass disasters, prompt victim identification holds utmost importance. The Rapid DNA technology, introduced in 2012 to expedite DNA analysis, has evolved to streamline the process into a single step. This advancement not only minimizes the risk of human error and contamination, but also boasts a remarkable time advantage, delivering results in as little as 90 min. In this study, DNA profiles of 30 families (consisting of mothers, fathers, and children) were analyzed using the RapidHITTM ID System. The system automatically calculated maternity-paternity probabilities to assess the suitability of Rapid DNA technology for kinship analysis. For validation, DNA profiles were also generated using the 3500 GA method. The study revealed that 9 out of 30 families exhibited discrepancies in DNA profiling, leading to inaccuracies in automatic kinship analysis. Consequently, while the method offers rapid and user-friendly advantages for forensic sciences, the software underlying the system requires re-evaluation. Issues such as maternal-paternal exclusion in kinship analyses, arising from challenges like un-called alleles, warrant further attention.

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用于法医目的的快速DNA技术在亲属关系分析中的成功率。

减少法医遗传学中DNA分析所需的时间可以产生显著的好处，无论是在确定法律诉讼和刑事案件的家谱关系方面。迅速识别个人在破案和逮捕犯罪者方面发挥着关键作用。此外，在大规模灾难等情况下，及时确认受害者身份至关重要。2012年引入的快速DNA技术旨在加快DNA分析，现已将过程简化为一个步骤。这一进步不仅最大限度地降低了人为错误和污染的风险，而且具有显著的时间优势，只需90分钟即可实现结果。在这项研究中，使用RapidHITTM ID系统分析了30个家庭（包括母亲、父亲和孩子）的DNA图谱。该系统自动计算产妇的亲子关系概率，以评估Rapid DNA技术用于亲属关系分析的适用性。为了验证，还使用3500GA方法生成了DNA图谱。研究显示，30个家庭中有9个家庭的DNA图谱存在差异，导致自动亲属关系分析不准确。因此，尽管该方法为法医学提供了快速和用户友好的优势，但该系统的软件需要重新评估。在亲缘关系分析中，由于未被称为等位基因等挑战而产生的母子排斥等问题值得进一步关注。

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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来源期刊

Forensic Science, Medicine and Pathology MEDICINE, LEGAL-PATHOLOGY

CiteScore

3.90

自引率

5.60%

发文量

114

审稿时长

6-12 weeks

期刊介绍： Forensic Science, Medicine and Pathology encompasses all aspects of modern day forensics, equally applying to children or adults, either living or the deceased. This includes forensic science, medicine, nursing, and pathology, as well as toxicology, human identification, mass disasters/mass war graves, profiling, imaging, policing, wound assessment, sexual assault, anthropology, archeology, forensic search, entomology, botany, biology, veterinary pathology, and DNA. Forensic Science, Medicine, and Pathology presents a balance of forensic research and reviews from around the world to reflect modern advances through peer-reviewed papers, short communications, meeting proceedings and case reports.