Gabrielle DiEmma scite author profile

Knowledge of the stability of analytes in solvents and biological matrices is of high importance in the field of forensic toxicology. This is particularly true where quantitative analysis is undertaken; degradation of analytes will result in under-estimation of concentrations, whereas the production of analytes/ metabolites will lead to over-estimation. Although stability is included as part of method validation, this typically focuses on processed sample stability, and the impact of freeze/thaw cycles upon analytes. Although beneficial for method evaluation, this does not assist laboratory analysts with the short-and long-term storage of samples prior to this step and does not consider the impact the biological matrix may have on the degradation or production of the analyte in question. The timeframe for these studies is also relatively short (typically 72 h), which does not cover the time frame between sample receivership and analysis for many forensic cases. This review collects previously published work on long-term stability studies, grouping compounds into their associated drug classes and matrices. Research shows that the majority of compounds are more stable at lower storage temperatures, and that analysis should be completed as quickly as possible. It is advised that analyte stability be considered prior to any interpretation of concentrations in a forensic setting.

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2022 National Institute of Justice Forensic Science Research and Development Symposium

DiEmma¹,

Fornaro²

2022

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The 2022 National Institute of Justice (NIJ) Forensic Science Research and Development (R&D) Symposium is intended to promote collaboration and enhance knowledge transfer of NIJ-funded research. The NIJ Forensic Science R&D Program funds both basic or applied R&D projects that will (1) increase the body of knowledge to guide and inform forensic science policy and practice or (2) result in the production of useful materials, devices, systems, or methods that have the potential for forensic application. The intent of this program is to direct the findings of basic scientific research; research and development in broader scientific fields applicable to forensic science; and ongoing forensic science research toward the development of highly discriminating, accurate, reliable, cost-effective, and rapid methods for the identification, analysis, and interpretation of physical evidence for criminal justice purposes.

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Gabrielle DiEmma

Classical and quantum simulations of a lithium ion solvated by a mixed Stockmayer cluster

Drug stability in forensic toxicology

2022 National Institute of Justice Forensic Science Research and Development Symposium

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