Cannabinoids in oral fluid by on-site immunoassay and by GC-MS using two different oral fluid collection devices

Desrosiers, Nathalie A.; Milman, Garry; Mendu, Damodara Rao; Lee, Dayong; Barnes, Allan J.; Gorelick, David A.; Huestis, Marilyn A.

doi:10.1007/s00216-014-7813-9

Cited by 36 publications

(19 citation statements)

References 27 publications

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“…The certificate of analysis for THCV indicates its purity is 94.8±0.12%, indicating that CBD and CBG may be present within the standard. These data agree with results obtained during method development conducted by our laboratory for cannabinoids quantification in oral fluid, in which the same THCV standard was utilized; CBD and CBG were detected in samples fortified with THCV alone at 1.5 and 1.3% of THCV concentration, respectively [26]. Additionally, THCCOOH was detected in a sample fortified with THCCOOH-glucuronide at 0.5% of fortified THCCOOH-glucuronide concentration.…”

Section: Discussionsupporting

confidence: 87%

Quantification of cannabinoids and their free and glucuronide metabolites in whole blood by disposable pipette extraction and liquid chromatography-tandem mass spectrometry

Scheidweiler

Newmeyer

Barnes

et al. 2016

Journal of Chromatography A

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Identifying recent cannabis intake is confounded by prolonged cannabinoid excretion in chronic frequent cannabis users. We previously observed detection times ≤2.1 h for cannabidiol (CBD) and cannabinol (CBN) and THC-glucuronide in whole blood after smoking, suggesting their applicability for identifying recent intake. However, whole blood collection may not occur for up to 4 h during driving under the influence of drugs investigations, making a recent-use marker with a 6-8 h detection window helpful for improving whole blood cannabinoid interpretation. Other minor cannabinoids cannabigerol (CBG), Δ9-tetrahydrocannabivarin (THCV), and its metabolite 11-nor-9-carboxy-THCV (THCVCOOH) might also be useful. We developed and validated a sensitive and specific liquid chromatography-tandem mass spectrometry method for quantification of THC, its phase I and glucuronide phase II metabolites, and 5 five minor cannabinoids. Cannabinoids were extracted from 200 μL whole blood via disposable pipette extraction, separated on a C18 column, and detected via electrospray ionization in negative mode with scheduled multiple reaction mass spectrometric monitoring. Linear ranges were 0.5-100 μg/L for THC and THCCOOH; 0.5-50 μg/L for 11-OH-THC, CBD, CBN, and THC-glucuronide; 1-50 μg/L for CBG, THCV, and THCVCOOH; and 5-500 μg/L for THCCOOH-glucuronide. Inter-day accuracy and precision at low, mid and high quality control (QC) concentrations were 95.1-113% and 2.4-8.5%, respectively (n=25). Extraction recoveries and matrix effects at low and high QC concentrations were 54.0-84.4% and −25.8-30.6%, respectively. By simultaneously monitoring multiple cannabinoids and metabolites, identification of recent cannabis administration or discrimination between licit medicinal and illicit recreational cannabis use can be improved.

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Section: Discussionsupporting

confidence: 87%

Quantification of cannabinoids and their free and glucuronide metabolites in whole blood by disposable pipette extraction and liquid chromatography-tandem mass spectrometry

Scheidweiler

Newmeyer

Barnes

et al. 2016

Journal of Chromatography A

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“…15 For the DT5000 (5-25 ng/mL THC cut-off), performance, sensitivity, specificity and accuracy were variously reported as 49.5%-100%, 55%-90%, and 55%-86.4%. 5,9,14,[16][17][18][19][20] The high variability in these results reflects differences in the cut-offs and biological matrices used for confirmatory analyses, the timing of tests relative to cannabis administration, cannabis dosage, and route of administration.…”

Section: Introductionmentioning

confidence: 99%

Detection of Δ⁹ THC in oral fluid following vaporized cannabis with varied cannabidiol (CBD) content: An evaluation of two point‐of‐collection testing devices

Arkell

Kevin

Stuart

et al. 2019

Drug Testing and Analysis

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Point‐of‐collection testing (POCT) for Δ9‐tetrahydrocannabinol (THC) in oral fluid is increasingly used to detect driving under the influence of cannabis (DUIC). However, previous studies have questioned the reliability and accuracy of two commonly used POCT devices, the Securetec DrugWipe® 5 s (DW5s) and Dräger DrugTest® 5000 (DT5000). In the current placebo controlled, double‐blind, crossover study we used liquid chromatography‐tandem mass spectrometry (LC–MS/MS) to accurately quantify cannabinoid concentrations in the oral fluid of 14 participants at various timepoints (10, 60, 120, and 180 minutes) following vaporization of 125 mg of THC‐dominant (11% THC; <1% CBD), THC/CBD equivalent (11% THC; 11% CBD) and placebo (<1% THC; <1% CBD) cannabis. At each timepoint, oral fluid was also screened using the DW5s (10 ng/mL THC cut‐off) and DT5000 (10 ng/mL THC cut‐off). LC–MS/MS analysis showed peak oral fluid THC concentrations at the 10 minute timepoint with a rapid decline thereafter. This trajectory did not differ with THC dominant and THC/CBD equivalent cannabis. With a 10 ng/mL confirmatory cut‐off, 5% of DW5s test results were false positives and 16% false negatives. For the DT5000, 10% of test results were false positives and 9% false negatives. Neither the DW5s nor the DT5000 demonstrated the recommended >80% sensitivity, specificity and accuracy. Accuracy was lowest at 60 minutes, when THC concentrations were often close to the screening cut‐off (10 ng/mL). POCT devices can be useful tools in detecting recent cannabis use; however, limitations should be noted, and confirmatory LC–MS/MS quantification of results is strongly advisable.

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“…In literature, several articles dealing with the analyses and determination of cannabinoids in plant material [4][5][6], urine [7,8], blood [8,9], oral fluid [8,10,11] as well as hair [12] using various chromatographic methods are available [13].…”

Section: Introductionmentioning

confidence: 99%

“…However, gas chromatography is one of the most common used techniques for analysis of cannabinoids [11,[14][15][16][17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Determination of the relative percentage distribution of THCA and Δ9-THC in herbal cannabis seized in Austria – Impact of different storage temperatures on stability

Taschwer¹,

Schmid²

2015

Forensic Science International

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Cannabinoids in oral fluid by on-site immunoassay and by GC-MS using two different oral fluid collection devices

Cited by 36 publications

References 27 publications

Quantification of cannabinoids and their free and glucuronide metabolites in whole blood by disposable pipette extraction and liquid chromatography-tandem mass spectrometry

Quantification of cannabinoids and their free and glucuronide metabolites in whole blood by disposable pipette extraction and liquid chromatography-tandem mass spectrometry

Detection of Δ⁹ THC in oral fluid following vaporized cannabis with varied cannabidiol (CBD) content: An evaluation of two point‐of‐collection testing devices

Determination of the relative percentage distribution of THCA and Δ9-THC in herbal cannabis seized in Austria – Impact of different storage temperatures on stability

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Cannabinoids in oral fluid by on-site immunoassay and by GC-MS using two different oral fluid collection devices

Cited by 36 publications

References 27 publications

Quantification of cannabinoids and their free and glucuronide metabolites in whole blood by disposable pipette extraction and liquid chromatography-tandem mass spectrometry

Quantification of cannabinoids and their free and glucuronide metabolites in whole blood by disposable pipette extraction and liquid chromatography-tandem mass spectrometry

Detection of Δ9 THC in oral fluid following vaporized cannabis with varied cannabidiol (CBD) content: An evaluation of two point‐of‐collection testing devices

Determination of the relative percentage distribution of THCA and Δ9-THC in herbal cannabis seized in Austria – Impact of different storage temperatures on stability

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Detection of Δ⁹ THC in oral fluid following vaporized cannabis with varied cannabidiol (CBD) content: An evaluation of two point‐of‐collection testing devices