非法药物分销：对密封袋和胶囊之间 DNA 转移的评估

IF 3.2 2区医学 Q2 GENETICS & HEREDITY Forensic Science International-Genetics Pub Date : 2024-11-21 DOI:10.1016/j.fsigen.2024.103182

Madison Nolan , Adrian Linacre

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引用次数: 0

摘要

含有非法物质的粉末经常被倒入胶囊中，然后装入小袋分发给使用者，通常是通过中间商进行分销。我们报告了制作、包装和运输密封袋（ZLB）中胶囊的人员之间通过两种途径进行 DNA 转移的情况，每种途径使用 10 个密封袋。在两人链中，参与者 A 制作胶囊并将其装入 ZLB，参与者 C 将胶囊袋携带四天。设计了一个三人链，参与者 A 制作胶囊，参与者 B 将胶囊装入袋子，参与者 C 搬运袋子。对 ZLB 的内部、开口的半保护部分和外表面进行 DNA 采样。此外，还对胶囊外部和储存容器进行了取样。使用 Verifiler™ Plus 进行 DNA 图谱分析，并通过 STRmix™ 对数据进行解卷积。尽管有证据表明 DNA 从胶囊转移到了储存容器和 ZLB 内部，但还是从胶囊中获得了信息丰富的 DNA 图谱。ZLB 外部产生了复杂的混合物，而保护性更强的包装袋内部和胶囊外部则产生了主要只有一到两种成分的DNA图谱。这突出表明，可以针对包装袋内部和胶囊外部来识别参与非法药物途径早期包装阶段的个人，而外部则提供了更多关于近期处理情况的信息。

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Illicit drug distribution: Evaluation of DNA transfer between ziplock bags and capsules

Powders containing illicit substances are frequently poured into capsules and then distributed in small bags to users, often via intermediaries. We report on the transfer of DNA between individuals involved in making, packing, and transporting capsules within ziplock bags (ZLB) via two pathways, each using 10 ZLBs. A two-person chain was created where participant A made and packed the capsules into ZLBs and participant C then carried the bags for four days. A three-person chain was devised where participant A made the capsules, participant B placed the capsules in bags, and participant C carried the bags. The ZLBs were sampled for DNA on the inside, the inner semi-protected portion of the opening, and the outside surface. The exterior of capsules were also sampled along with a storage container. DNA profiling using Verifiler™ Plus was performed with data deconvoluted by STRmix™. Informative DNA profiles were obtained from capsules despite evidence of DNA transfer from the capsules to both storage containers and the inside of the ZLB. The outside of ZLBs yielded complex mixtures, however, the inside of the bag and the exterior of capsules, which had greater protection, yielded profiles with predominately only one to two contributors. This highlights that the inside of the bags and exterior of capsules could be targeted to identify individuals involved in the early packaging stages of the illicit drug pathway while the outside provided more information on recent handling.

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来源期刊

Forensic Science International-Genetics 生物-医学：法

CiteScore

7.50

自引率

32.30%

发文量

132

审稿时长

11.3 weeks

期刊介绍： Forensic Science International: Genetics is the premier journal in the field of Forensic Genetics. This branch of Forensic Science can be defined as the application of genetics to human and non-human material (in the sense of a science with the purpose of studying inherited characteristics for the analysis of inter- and intra-specific variations in populations) for the resolution of legal conflicts. The scope of the journal includes: Forensic applications of human polymorphism. Testing of paternity and other family relationships, immigration cases, typing of biological stains and tissues from criminal casework, identification of human remains by DNA testing methodologies. Description of human polymorphisms of forensic interest, with special interest in DNA polymorphisms. Autosomal DNA polymorphisms, mini- and microsatellites (or short tandem repeats, STRs), single nucleotide polymorphisms (SNPs), X and Y chromosome polymorphisms, mtDNA polymorphisms, and any other type of DNA variation with potential forensic applications. Non-human DNA polymorphisms for crime scene investigation. Population genetics of human polymorphisms of forensic interest. Population data, especially from DNA polymorphisms of interest for the solution of forensic problems. DNA typing methodologies and strategies. Biostatistical methods in forensic genetics. Evaluation of DNA evidence in forensic problems (such as paternity or immigration cases, criminal casework, identification), classical and new statistical approaches. Standards in forensic genetics. Recommendations of regulatory bodies concerning methods, markers, interpretation or strategies or proposals for procedural or technical standards. Quality control. Quality control and quality assurance strategies, proficiency testing for DNA typing methodologies. Criminal DNA databases. Technical, legal and statistical issues. General ethical and legal issues related to forensic genetics.