Gudrun Høiseth1, Silja Skogstad Tuv2, Ritva Karinen2. 1. Norwegian Institute of Public Health, Domain of Forensic Sciences, P.O. Box 4404, Nydalen, N-0403 Oslo, Norway. Electronic address: gudrun.hoiseth@fhi.no. 2. Norwegian Institute of Public Health, Domain of Forensic Sciences, P.O. Box 4404, Nydalen, N-0403 Oslo, Norway.
Abstract
INTRODUCTION: A number of new designer benzodiazepines have reached the illegal drug market over the past years. Toxicological interpretation of concentrations of these drugs in blood is quite challenging as very limited human data have previously been published. The aim of this study was to report blood concentrations of new designer benzodiazepines in a population of drugged drivers as well as some other criminal offenders, and to relate this to clinical impairment. METHODS: The present material represents cases involving new designer benzodiazepines (clonazolam, diclazepam, flubromazepam, flubromazolam and pyrazolam) and etizolam, submitted for analyses during the period July 1, 2013-May 31, 2016. Analyses were performed using an ultra-performance liquid chromatography-tandem mass spectrometry method. Blood concentrations and results from the clinical test of impairment are reported. RESULTS: New designer benzodiazepines were detected in 77 cases during the study period. The median (range) concentrations were 0.012mg/L (0.00048-0.10) for flubromazolam (n=25), 0.055mg/L (0.0047-1.2) for flubromazepam (n=24), 0.013mg/L (0.0021-0.057) for diclazepam (n=15), 0.050mg/L (0.019-0.17) for etizolam (n=14), 0.0053mg/L (0.0019-0.011) for clonazolam (n=7) and 0.074mg/L for pyrazolam (n=1). In six cases, designer benzodiazepines were the only drugs detected in blood, and in two of those cases, the physician had given the conclusion of "considerably impaired" upon performing the clinical test for impairment. CONCLUSION: Given the lack of previously published data on human concentrations, results presented in this study could be helpful in interpretation of blood concentrations of new designer benzodiazepines. This is crucial for the assessment of the importance of toxicological results in suspected drugged drivers, rape victims, etc.
INTRODUCTION: A number of new designer benzodiazepines have reached the illegal drug market over the past years. Toxicological interpretation of concentrations of these drugs in blood is quite challenging as very limited human data have previously been published. The aim of this study was to report blood concentrations of new designer benzodiazepines in a population of drugged drivers as well as some other criminal offenders, and to relate this to clinical impairment. METHODS: The present material represents cases involving new designer benzodiazepines (clonazolam, diclazepam, flubromazepam, flubromazolam and pyrazolam) and etizolam, submitted for analyses during the period July 1, 2013-May 31, 2016. Analyses were performed using an ultra-performance liquid chromatography-tandem mass spectrometry method. Blood concentrations and results from the clinical test of impairment are reported. RESULTS: New designer benzodiazepines were detected in 77 cases during the study period. The median (range) concentrations were 0.012mg/L (0.00048-0.10) for flubromazolam (n=25), 0.055mg/L (0.0047-1.2) for flubromazepam (n=24), 0.013mg/L (0.0021-0.057) for diclazepam (n=15), 0.050mg/L (0.019-0.17) for etizolam (n=14), 0.0053mg/L (0.0019-0.011) for clonazolam (n=7) and 0.074mg/L for pyrazolam (n=1). In six cases, designer benzodiazepines were the only drugs detected in blood, and in two of those cases, the physician had given the conclusion of "considerably impaired" upon performing the clinical test for impairment. CONCLUSION: Given the lack of previously published data on human concentrations, results presented in this study could be helpful in interpretation of blood concentrations of new designer benzodiazepines. This is crucial for the assessment of the importance of toxicological results in suspected drugged drivers, rape victims, etc.
Authors: Janice Pettie; Allan Burt; Duleeka W Knipe; Hazel Torrance; Margaret Dow; Karen Osinski; Robert Greig; Diletta Sabatini; Kate Easterford; James Dear; Michael Eddleston Journal: Br J Clin Pharmacol Date: 2018-07-20 Impact factor: 4.335
Authors: Pietro Brunetti; Raffaele Giorgetti; Adriano Tagliabracci; Marilyn A Huestis; Francesco Paolo Busardò Journal: Pharmaceuticals (Basel) Date: 2021-06-11