Extraction Analysis of a Comprehensive Quantitative Drug Panel in Hair Samples by UHPLC-MS/MS for Forensic Toxicology
Posters | 2025 | Waters | TIAFTInstrumentation
The analysis of drugs in human hair provides a prolonged detection window for both illicit and prescription substances. Hair testing is minimally invasive, easily supervised during collection, and allows for stable transport and storage at room temperature. In forensic toxicology, hair analysis is particularly valuable for post-mortem investigations, drug-facilitated sexual assault cases, and long-term monitoring scenarios where blood or urine samples may not be available.
This study aimed to develop, optimize, and validate a comprehensive UHPLC-MS/MS method for extracting and quantifying a broad panel of 58 drugs and metabolites in hair. The method was designed to meet Society of Hair Testing (SoHT) confirmation cut-off criteria, ensuring reliable identification and quantification across multiple compound classes.
Sample preparation involved decontamination by sequential washing, followed by pulverization of hair using a bead-mill homogenizer. Extraction was performed with mixed-mode cation exchange solid phase extraction (Waters Oasis MCX) and final injection volume of 2 µL.
Recoveries ranged from 6% to 79%, with 49 of 58 analytes exceeding 40% and %RSDs below 17%. Matrix effects were consistent (S.D.<10%), with only six compounds experiencing ion suppression above 40%. Calibration curves demonstrated linearity (R²>0.995) over relevant concentration ranges, and intra- and inter-batch precision and accuracy met SoHT criteria for all but two analytes. External quality control samples yielded 82% of analytes within manufacturer limits, confirming the method’s robustness.
The validated workflow allows same-day batch processing within 3–4 hours. High sensitivity and specificity make it suitable for forensic casework, workplace drug testing, and clinical monitoring of long-term drug exposure.
Advances in high-resolution mass spectrometry could expand target panels and improve detection of emerging psychoactive substances. Automated sample preparation and artificial intelligence-driven data review may further enhance throughput and reduce manual oversight.
A robust, sensitive UHPLC-MS/MS method was established for a comprehensive hair drug panel. The protocol meets international cut-off standards, delivers reproducible results, and supports rapid forensic and clinical applications.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesForensics
ManufacturerWaters
Summary
Importance of the Topic
The analysis of drugs in human hair provides a prolonged detection window for both illicit and prescription substances. Hair testing is minimally invasive, easily supervised during collection, and allows for stable transport and storage at room temperature. In forensic toxicology, hair analysis is particularly valuable for post-mortem investigations, drug-facilitated sexual assault cases, and long-term monitoring scenarios where blood or urine samples may not be available.
Objectives and Study Overview
This study aimed to develop, optimize, and validate a comprehensive UHPLC-MS/MS method for extracting and quantifying a broad panel of 58 drugs and metabolites in hair. The method was designed to meet Society of Hair Testing (SoHT) confirmation cut-off criteria, ensuring reliable identification and quantification across multiple compound classes.
Methodology and Instrumentation
Sample preparation involved decontamination by sequential washing, followed by pulverization of hair using a bead-mill homogenizer. Extraction was performed with mixed-mode cation exchange solid phase extraction (Waters Oasis MCX) and final injection volume of 2 µL.
- UHPLC: Waters ACQUITY UPLC I-Class with BEH C18 column (1.7 µm, 2.1 x 100 mm), 40 °C, gradient elution (0.1% formic acid in water/acetonitrile).
- MS/MS: Xevo TQ-Absolute tandem quadrupole with ESI source (source 150 °C, desolvation 500 °C, 1000 L/h).
- Data processing: MassLynx and QUAN Review via waters_connect.
Results and Discussion
Recoveries ranged from 6% to 79%, with 49 of 58 analytes exceeding 40% and %RSDs below 17%. Matrix effects were consistent (S.D.<10%), with only six compounds experiencing ion suppression above 40%. Calibration curves demonstrated linearity (R²>0.995) over relevant concentration ranges, and intra- and inter-batch precision and accuracy met SoHT criteria for all but two analytes. External quality control samples yielded 82% of analytes within manufacturer limits, confirming the method’s robustness.
Benefits and Practical Applications
The validated workflow allows same-day batch processing within 3–4 hours. High sensitivity and specificity make it suitable for forensic casework, workplace drug testing, and clinical monitoring of long-term drug exposure.
Future Trends and Possibilities
Advances in high-resolution mass spectrometry could expand target panels and improve detection of emerging psychoactive substances. Automated sample preparation and artificial intelligence-driven data review may further enhance throughput and reduce manual oversight.
Conclusion
A robust, sensitive UHPLC-MS/MS method was established for a comprehensive hair drug panel. The protocol meets international cut-off standards, delivers reproducible results, and supports rapid forensic and clinical applications.
References
- Cooper et al. 2012. Forensic Science International, 218, 20–24.
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