Orbitrap Illustration

THC

Quantitation of drugs of abuse in body fluids is challenging due to the varying concentrations and substantially different chemical and physical properties of the drugs, interfering matrices, occasionally small volumes of sample to test, and the presence of many similar compounds. Further, constant evolution of drugs makes it harder to identify and quantitate them. Currently, most of the quantitative analysis is done using a selected reaction monitoring (SRM) approach on a triple-stage quadrupole mass spectrometer. This approach is inherently targeted and misses new compounds. Also, the SRM duty cycle limits monitoring, and quantitating large numbers of analytes is very difficult if not impossible. For the first time, high-resolution, accurate mass spectrometry based on Orbitrap™ technology offers a practical solution for the challenge at hand. The high resolution of up to 140,000 FWHM enables separation of drugs and metabolites from interferences. Fast positive/negative switching catches acidic, basic and neutral drugs. Better than 3 ppm mass accuracy assures confidence in identification, and fragment ions from the HCD cell further confirm the identity beyond a reasonable doubt. All of this is made simple by using Thermo Scientific TraceFinder and ExactFinder software, which help attain high productivity and confidence in routine targeted and general unknown screening applications.
 
Here we describe the application of Orbitrap technology-based workflow solutions for quantitation of drugs and metabolites in urine, plasma, whole blood, and oral fluid matrices.

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Workflow Overview for THC in Oral Fluid

 
Quantitation of Tetrahydrocannabinol (THC) and Tetrahydrocannabolic acid (THCA) in oral fluid is of great interest to the forensic science community. The non-invasive nature of sample collection makes it an attractive practical approach. The analysis of THC in oral fluid is challenging due to the hydrophobic nature of the molecule. The reagents such as detergents and preservative buffers used for sample collection devices further increase complexity of the sample. In addition, the sticky nature of the molecule needs special handling. The analytical workflow must be capable of handling these challenges and minimizing matrix interferences and ion suppression. This analysis has been done by GC-MS or selected reaction monitoring (SRM) analysis using LC-MS/MS, both involving labor-intensive and time-consuming liquid-liquid extraction (LLE) sample preparation. High-resolution MS offers an easier and fully automated alternative.
 
The workflow described is a new methodology involving a simple one-step sample preparation followed by automated 2D LC-high resolution MS/MS using the Thermo Scientific Q Exactive MS system. The system uses the Full Scan MS2 mode at 70,000 FWHM resolution. The LC-MS/MS analysis quantifies THC at high pg/mL concentrations.



 


 

Resources


10pg/mL Level Robust Quantitation of THCA and Simultaneous Detection of THC in Oral Fluid Using Oral-Eze® and LC-MS/MS

He K, Kozak M.
Slide Presentation