Various "legal high" products were tested for synthetic cannabinoids and synthetic stimulants to qualitatively determine the active ingredient(s). Ultra-performance liquid chromatography with accurate mass time-of-flight mass spectrometry (UPLC-TOF) was used to monitor the non-biological specimens utilizing a customized panel of 65+ compounds comprised of synthetic cannabinoids, synthetic stimulants and other related drugs. Over the past year, the United States Drug Enforcement Agency has controlled five synthetic cannabinoid compounds (JWH-018, JWH-073, JWH-200, CP-47,497 and CP-47,497-C8) and three synthetic stimulant compounds (3,4-methylenedioxypyrovalerone, mephedrone and methylone) that were previously reported to be detected in these legal high products. Through our analyses of first and second generation products, it was shown that many of these banned substances are no longer used and have been replaced by other derivatives that are federally legal. Since enactment of the federal bans on synthetic cannabinoids and synthetic stimulants, 4.9% of the products analyzed at our facility contained at least one controlled substance. The remaining 95.1% of products contained only uncontrolled drugs. We demonstrate the UPLC-TOF methodology to be a powerful tool in the qualitative identification of these designer drugs, thus enabling a laboratory to keep current with the drugs that are being sold as these designer products.
In January 2014, the US government temporarily designated 5F-PB-22, along with three other synthetic cannabinoids (AB-FUBINACA, ADB-PINACA and PB-22), into Schedule I. Over the course of a 4-month time period (July-October 2013), our laboratory quantitatively identified 5F-PB-22 in specimens obtained from four postmortem cases. We describe the four cases, to include pertinent autopsy findings and decedent histories, together with quantitative results for 5F-PB-22 determined in postmortem blood and antemortem serum. Samples were prepared via a liquid-liquid extraction at pH 10.2 into hexane : ethyl acetate. Instrumental analysis was achieved with liquid chromatography coupled with electrospray ionization tandem mass spectrometry operating in multiple reaction monitoring mode. Two ion transitions were monitored for the analyte of interest, and one ion transition was monitored for the internal standard. The observed concentration range of 5F-PB-22 is 1.1-1.5 ng/mL for three postmortem blood specimens and one antemortem serum specimen. Three of the decedents experienced abrupt, sudden death; however, one decedent expired after a rapidly deteriorating hospital course.
Synthetic cannabinoids have been detected in various herbal blends sold legally in convenience stores, smoke shops, and on the Internet. Many of these compounds have extreme forensic significance. We developed and validated a rapid ultra-performance liquid chromatography-tandem mass spectrometry method for the determination of trace concentrations of two of these compounds, JWH-018 and JWH-073, in human blood. Samples underwent liquid-liquid extraction at pH 10.2 into ethyl ether. Tandem mass spectrometry was performed in positive electrospray ionization mode with multiple reaction monitoring using two transitions and one calculated ion transition ratio for each analyte. Deuterated analogs were used as internal standards. Total run time was 2.6 min. The linear dynamic range was 0.05-50 ng/mL with a limit of detection of 0.01 ng/mL for each analyte. Intra-run imprecision (at two different concentration levels, 2 and 8 ng/mL) was 3.9-10.3% for JWH-018 and 3.5-6.2% for JWH-073. Inter-run imprecision was 6.5-7.2% for JWH-018 and 4.8-5.5% for JWH-073. Intra-run accuracy was 95.9-112.7% for JWH-018 and 92.6-104.7% for JWH-073. Inter-run accuracy was 99.1-107.0% for JWH-018 and 97.7-102.0% for JWH-073. Carryover, exogenous drug interferences, ion suppression and matrix selectivity were also assessed. The method has been applied to postmortem forensic casework received by the laboratory and has proven to be robust and reliable. Concentrations of authentic samples have ranged from 0.1-199 ng/mL for JWH-018 and 0.1-68.3 ng/mL for JWH-073.
Synthetic cannabinoids have been found in herbal incense products for the last several years. We report the rapid death of an individual that was certified as synthetic cannabinoid-associated. The autopsy blood specimen was extracted by a liquid-liquid extraction at pH 10.2 into a hexane-ethyl acetate mixture and analyzed by a generalized synthetic cannabinoid LC-MS-MS method. For this case report, we briefly describe the instrumental analysis and extraction methods for the detection of ADB-FUBINACA in postmortem blood, toxicological results for the postmortem blood specimen (ADB-FUBINACA, 7.3 ng/mL; THC, 1.1 ng/mL; THC-COOH, 4.7 ng/mL), case information and circumstances and pertinent findings at autopsy. The cause of death was certified as coronary arterial thrombosis in combination with synthetic cannabinoid use. Manner of death was accident.
Immunoassays and high-performance liquid chromatography (HPLC) coupled with mass spectrometry (MS) are both widely used methods for drug screening in toxicology. We investigated an alternative approach for rapid drug screening: paper spray MS (PS-MS). In paper spray, the biofluid sample is spotted onto a paper substrate. Upon application of a spray solvent and an electric potential, extraction and ionization occur directly from the paper without any need for additional sample preparation. We developed two paper spray high-resolution MS/MS targeted drug screening assays using a quadrupole-orbitrap mass spectrometer, one the positive ion mode and one in the negative ion mode. In the positive ion mode, over 130 drugs and drug metabolites were semi-quantitatively screened at sub-toxic concentrations in a single 2.5 min analysis. Limits of detection and calibration performances for each target compound are reported. The PS-MS/MS assay was tested on authentic postmortem specimens, and its screening ability and semi-quantitative performance were evaluated against independent LC-MS-MS screening and confirmation assays with good agreement. The paper spray MS/MS showed good qualitative agreement with LC-MS-MS; the true positive rate of paper spray MS/MS was 92%, and the true negative rate was over 98%. The quantitative results between the two methods were also acceptable for a screening application; Passing-Bablok regression yielded a slope of 1.17 and a Pearson's correlation coefficient of 0.996. A separate PS-MS/MS negative ion screening method was also developed for a small panel of barbiturates and structural analogs, demonstrating its potential for acidic drug detection and screening.
Over the last few years, NBOMe substances have been used either as a legal alternative to lysergic acid diethylamide (LSD) or sold surreptitiously as LSD to unknown users. These NBOMe substances have been detected in blotter papers, powders, capsules and liquids. We report the deaths of two teenage male subjects that were related to 25B-NBOMe and 25I-NBOMe in Indiana during 2014. Samples were extracted via a solvent protein precipitation with acetonitrile and analyzed via ultra-performance liquid chromatography with tandem mass spectrometry. For these two cases, we describe the NBOMe instrumental analysis, toxicological results for postmortem heart blood and urine specimens and the relevant case history and pathological findings at autopsy. In the first case, 25B-NBOMe was detected in postmortem heart blood at 1.59 ng/mL; in the second case, 25I-NBOMe was detected in postmortem heart blood at 19.8 ng/mL. We also review relevant published casework from clinical toxicology and postmortem toxicology in which analytically confirmed 25B-NBOMe and 25I-NBOMe were determined to be causative agents in intoxications or deaths.
Carfentanil is a mu (μ) opioid receptor agonist and is estimated to be ~10,000 times more potent than morphine in animal (non-human) models. It is not approved for human use and is only used to immobilize large exotic animals in veterinary medicine. In mid-2016, carfentanil emerged as a contaminant in street heroin in the USA and was central to a large number of emergency department visits and deaths. We describe an analytical method for the detection and quantification of carfentanil in whole blood specimens via a protein precipitation extraction with acetonitrile and liquid chromatography with triple quadrupole mass spectrometry. From 1 September 2016 to 1 January 2017, carfentanil was identified in 262 postmortem blood specimens. Blood concentrations ranged from 10.2 to 2,000 ng/L, with a mean concentration equal to 193 ng/L and a median concentration equal to 98.4 ng/L. We describe 13 fatalities from the Midwest region (Indiana, Kentucky, Michigan and Ohio) of the USA in which our laboratory performed comprehensive toxicology and in which carfentanil was detected and associated with cause of death. We recommend that any analytical method applied to the detection of this substance in human whole blood specimens be sufficiently sensitive to detect sub-100 ng/L concentrations and preferably utilize a 10-50 ng/L reporting limit.
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