Using accurate mass LC/MS/MS in forensic toxicology screening

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Using accurate mass LC/MS/MS in forensic toxicology screening Dr Simon Elliott Consultant Forensic Toxicologist (ROAR) Forensics Ltd Malvern Hills Science Park, Geraldine Rd, Malvern, Worcestershire, WR14 3SZ simon.elliott@roarforensics.com

Accurate Mass LC/MS has been around for a while but its use is now starting to increase rapidly: Can be used for a wide range of applications e.g. multi-drug analysis, proteins, environmental monitoring and biochemistry Has particular advantages for analysis of certain compounds Provides a complimentary method of analysis to existing techniques QTOF LC/MS with CID MS-MS can provide extremely selective and sensitive detection S. ELLIOTT 2011, 2015

Toxicological applications of QTOF LC/MS/MS General drug screening - Unknown screening - Targeted screening Drug measurement 6530 QTOF LC/MS system - selective and sensitive Can be applied to various specimens; blood, plasma/serum, urine, oral fluid, hair, post-mortem fluid, tablets/solutions. Can be applied for a wide range of requests medico-legal, post-mortem and forensic toxicology. S. ELLIOTT 2011, 2015

drug screening Advantages: Existing advantages of LC-MS (no derivatisation, sensitive, selective, etc). UHPLC provides rapid analysis. Can also couple to UV. Can detect a very wide range of analytes (depending on extraction used) Identification based on accurate mass molecular ion (searchable by library or e.g. ChemSpider or PubChem) Accurate mass MS-MS spectral matching Software assists with structural elucidation Can return to historic data to revisit possible presence of compounds Disadvantages: More compounds are isobaric than you would think, even with accurate mass For absolute identification, still need a retention parameter (or if accurate mass CID MS-MS is available) S. ELLIOTT 2011, 2015

General screening Agilent 2.1 mm x 100 mm Eclipse Plus C18 1.8 micron column Acetonitrile and 0.1% formic acid mobile phase UHPLC gradient Chlorphenamine Haloperidol Clomipramine Agilent 1290 Infinity UHPLC Ephedrine Midazolam Amiodarone Prednisolone Paracetamol Mefenamic acid System allows detection by accurate mass and automated MS-MS. From the TIC, various filters can be used to identify potential peaks of interest, followed by searching against a database/library. S. ELLIOTT 2011, 2015

Midazolam Auto MS-MS detection & identification S. ELLIOTT 2011, 2015

Case Examples Glucuronide metabolites (extended window of detection) Temazepam + fragments (matchable) Temazepam glucuronide S. ELLIOTT 2011, 2015

Case Examples Glucuronide metabolites (extended window of detection) Codeine glucuronide S. ELLIOTT 2011, 2015

Case Examples New Designer Drugs 4-methylamphetamine, 2-aminoindan, MDAI C10 H16 N (M+H) formula prediction 150.1277 S. ELLIOTT 2011, 2015

Case Examples 4-Methylamphetamine Amphetamine 4-Methylamphetamine case possibility 4-Methylamphetamine reference standard S. ELLIOTT 2011, 2015

Case Examples New Designer Drugs 4-methylamphetamine, 2-aminoindan, MDAI C9 H12 N (M+H) formula prediction 134.0963 S. ELLIOTT 2011, 2015

Case Examples 2-Aminoindan 2-Aminoindan is isobaric with Tranylcypromine www.chemspider.com S. ELLIOTT 2011, 2015

Case Examples Re-examination of findings phenelzine (following new evidence of use) General TIC Extracted ion for Phenelzine S. ELLIOTT 2011, 2015

Complements existing systems Immunoassay GC-MS HPLC-DAD LC-MS Replaces existing systems Immunoassay GC-MS HPLC-DAD LC-MS S. ELLIOTT 2011, 2015

Complementary implementation Ensure you are aware of analytical coverage overlap or differences Possible to use same extraction procedures or extracts Provides additional confidence in results (particularly screening) Method can be validated and evaluated alongside existing systems Replacement implementation Ensure it performs as well as if not better than the method it is replacing! Implementation should be carefully planned to fit in with the existing workflow The new method should be fully validated and evaluated The workforce should be trained appropriately for effective use S. ELLIOTT 2011, 2015

PROBLEMS AND PITFALLS If using sensitive QTOF MS for the first time, you will find even more things than traditional LC/MS-MS! This can alter detection window comments, operating cut-offs and other interpretative aspects Be aware of in-source fragmentation this can affect identification of molecular ion Experiment with positive and negative mode some drugs can do both Using deuterated internal standards or matrix dilution can minimise any ion suppression/enhancement effects Don t forget about U/HPLC the better the chromatography, the better the MS data obtained S. ELLIOTT 2011, 2015

CONCLUSIONS QTOF LC-MS provides a complementary method of analysis or can replace existing techniques Can be applied to a very wide range of analytes so has particular advantages for general screening (inc. ability to re-interrogate historic data) Need to be aware of interpretative and analytical issues Careful implementation and training can enhance workflow and significantly improve the laboratory service THANK YOU FOR YOUR ATTENTION S. ELLIOTT 2011, 2015

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