Document Type
Dissertation
Degree
Doctor of Philosophy (PhD)
Major/Program
Chemistry
First Advisor's Name
Anthony P. DeCaprio
First Advisor's Committee Title
Committee chair
Second Advisor's Name
Watson Lees
Second Advisor's Committee Title
Committee Member
Third Advisor's Name
Bruce McCord
Third Advisor's Committee Title
Committee Member
Fourth Advisor's Name
De Etta Kay Mills
Fourth Advisor's Committee Title
Committee Member
Fifth Advisor's Name
Yukching Tse Dinh
Fifth Advisor's Committee Title
Committee Member
Keywords
chemistry
Date of Defense
10-25-2022
Abstract
Forensic hair analysis is commonly used in forensic toxicology with regards to drug-facilitated crime, workplace testing, and post-mortem investigation. Hair as a matrix benefits these types of analyses because of its long window of detection, allowing for a determination of drug history of exposure. However, there are currently no standards for forensic hair testing methods or practices, causing bias and inconsistency in forensic hair testing across multiple laboratories. Thus, two of the three aims of this research involved systematically comparing decontamination, pretreatment, and extraction methods to develop optimized forensic hair analysis protocols for multiple drugs and metabolites. Additionally, as hair is a complex matrix, there is limited understanding regarding the physicochemical interactions that occur between drugs of abuse and hair matrix components. Thus, the third aim of this research was to assess relative levels of ionic and non-ionic interactions between drugs and metabolites and the hair matrix.
Major findings of this work included an optimized forensic hair analysis method for multiple drugs and metabolites including decontamination using one 30-min wash with HPLC water followed by three 30-min washes with dichloromethane, pulverizing the hair into a powder, and a 2-h extraction in a 12.5 µL/mg mixture of methanol acetonitrile, and 2 mM ammonium formate (25:25:50, v/v/v) at 37⁰C. In addition, binding studies indicated that almost all drugs and metabolites are involved in some degree of both ionic and non-ionic interactions with the hair matrix.
These findings will impact the forensic science community by presenting an optimized forensic hair analysis for drugs and metabolites, as well as providing additional insight regarding the interactions between drugs and metabolites and hair matrix components.
Identifier
FIDC010851
Recommended Citation
Spear, Brianna, "Assessing Pretreatment Methods and Drug-Matrix Binding in Forensic Hair Analysis" (2022). FIU Electronic Theses and Dissertations. 5228.
https://digitalcommons.fiu.edu/etd/5228
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