Microcrystal Tests for Illicit Drugs Group 2 (1727V), September 23-24, 2021 Online
This two-day course will be conducted live via Zoom. For more details email firstname.lastname@example.org.
“ The course provides an excellent basis for microchemical testing of illicit drugs, which I use on about 95% of my cases.” — M.B.
“ I became more confident in performing tests and designing training modules. These microcrystal tests will help reduce our backlog and turnaround time.” — A.H.
COURSE OUTLINE & SYLLABUS
Course schedule: 9:00 a.m. – 5:00 p.m. both days (Central Time, U.S. and Canada). There will be a one-hour break for lunch and several short breaks throughout the day.
This course teaches basic and advanced microscopical techniques, including microcrystal tests from McCrone Research Institute’s publication, A Modern Compendium of Microcrystal Tests for Illicit Drugs and Diverted Pharmaceuticals. It will emphasize the methods used in polarized light microscopy and optical crystallography, allowing the microscopist to recognize and identify specific microcrystals formed in the presence of suspected drugs.
This online course will focus specifically on microcrystal tests for amphetamine, codeine, diazepam, ephedrine, heroin, hydrocodone, methamphetamine, oxycodone, and pseudoephedrine. Practical applications, pros and cons of microcrystal tests, interferences, limits of detection, and sensitivity are illustrated. Techniques of small particle manipulation will also comprise a small component of this course.
Prerequisite: Students are required to be employed as a microscopist or trace/physical evidence analyst, or hold a directly related position in a forensic crime laboratory.
• Review of Köhler illumination, optical crystallography, crossed-polar techniques, principles of microcrystal analyses, use of microcrystal reference texts, and reagent formulation shorthand
• Small particle handling
• Analysis of heroin, including common adulterants and excipients
• Analysis of amphetamine and methamphetamine (including d-and dl- isomer distinction)
• Analysis of codeine, diazepam, ephedrine, hydrocodone, oxycodone, and pseudoephedrine