Capistran, B.
and Sisco, E.
(2024),
Validation of a Rapid GC-MS Method for Forensic Seized Drug Screening Applications, Forensic Chemistry, [online], https://doi.org/10.1016/j.forc.2024.100609, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=958023
(Accessed November 21, 2024)
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Validation of a Rapid GC-MS Method for Forensic Seized Drug Screening Applications
Published
Author(s)
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Abstract
With the lack of standardized validation protocols across the forensic chemistry community, validation of instrumentation can be a challenging and time-consuming task. However, this process is crucial to understanding the associated capabilities and limitations, especially for nascent technologies. Rapid GC-MS is one such emerging analytical technique being increasingly implemented in forensic laboratories due to its fast and informative screening capabilities. However, a full validation for forensic samples has yet to be published since its debut. This work presents the results of a comprehensive validation of a rapid GC-MS system for seized drug screening through the assessment of nine components: selectivity, matrix effects, precision, accuracy, range, carryover/contamination, robustness, ruggedness, and stability. Single- and/or multi-compound test solutions of commonly encountered seized drug compounds were used to assess method and system performance. Results met the designated acceptance criteria for a majority of components. For example, retention time and mass spectral search score % RSDs were ≤ 10 % for precision and robustness studies. Limitations were identified for components that did not meet the acceptance criteria (e.g., inability to differentiate some isomers). The study design is part of a larger validation package developed for rapid GC-MS that includes a validation plan and automated workbook. The template, available for adoption by laboratories, ultimately aims to reduce the barrier of implementation for rapid GC-MS technology.Citation
Forensic Chemistry
Volume
41
Pub Type
Journals
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Keywords
GC-MS, Validation, Seized drugs, Screening
Citation
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Created September 14, 2024, Updated September 19, 2024