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Forensic Toxicology
Published in: Forensic Toxicology 2/2018

01-07-2018 | Original Article

Sensitive quantification of 5F-NNEI and characterization of its several metabolites in authentic urine and/or serum specimens obtained from three individuals by LC–QTRAP-MS/MS and high-resolution LC–Orbitrap-MS/MS

Authors: Kayoko Minakata, Hideki Nozawa, Itaru Yamagishi, Koutaro Hasegawa, Takeji Saitoh, Atsuto Yoshino, Masako Suzuki, Takuya Kitamoto, Osamu Suzuki, Kanako Watanabe

Published in: Forensic Toxicology | Issue 2/2018

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Abstract

Purpose

A synthetic cannabinoid 5F-NNEI and its metabolites in authentic human specimens have not been reported yet. The aim of this study is, firstly, to establish a sensitive quantification method of 5F-NNEI in human serum and urine specimens, and, secondly, the characterization of its metabolites in authentic urine specimens obtained from three individuals.

Methods

These compounds were extracted from β-glucuronide-hydrolyzed and unhydrolyzed urine and/or serum specimens via liquid-liquid extraction. The identification and quantification were performed using liquid chromatography (LC)–QTRAP tandem mass spectrometry (MS/MS), and the characterization of the metabolites was done using LC–high-resolution-MS/MS.

Results

The limits of detection for unchanged 5F-NNEI were 6 pg/mL with the quantification range of 10–2000 pg/mL in serum, and 3 pg/mL with the quantification range of 5–1000 pg/mL in urine. The devised method was applied to quantify 5F-NNEI in authentic serum and/or urine specimens from three individuals. The levels of 5F-NNEI were 11.6 and 3680 pg/mL in serum specimens of cases 1 and 2, respectively, and were 5.07 and 7.90 pg/mL in urine specimens of cases 2 and 3, respectively. Several metabolites of 5F-NNEI produced by amide hydrolysis, defluorination, hydroxylation, carboxylation and/or glucuronization were tentatively identified in the urine specimens by the LC–high-resolution-MS/MS.

Conclusions

A synthetic cannabinoid, 5F-NNEI, was identified and quantified in its unchanged form, and its several metabolites were tentatively identified in authentic specimens obtained from three individuals, for the first time to our knowledge.
Literature
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Uchiyama N, Matsuda S, Kawamura M, Shimokawa Y, Hanajiri RK, Aritake K, Urade Y, Goda Y (2014) Characterization of four new designer drugs, 5-chloro-NNEI, NNEI indazole analog, α-PHPP and α-POP, with newly distributed designer drugs in illegal products. Forensic Sci Int 243:1–13CrossRefPubMed
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Minakata K, Hasegawa K, Yamagishi I, Nozawa H, Hanajiri RK, Suzuki M, Kitamoto T, Suzuki O, Watanabe K (2018) Sensitive quantification of 5F-PB-22 and its three metabolites 5F-PB-22 3-carboxyindole, PB-22 N-5-hydroxypentyl and PB-22 N-pentanoic acid in authentic urine specimens obtained from four individuals by liquid chromatography-tandem mass spectrometry. Forensic Toxicol 36:151–159CrossRef
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Minakata K, Yamagishi I, Nozawa H, Hasegawa K, Suzuki M, Gonmori K, Suzuki O, Watanabe K (2017) Sensitive identification and quantitation of parent forms of six synthetic cannabinoids in urine samples of human cadavers by liquid chromatography–tandem mass spectrometry. Forensic Toxicol 35:275–283CrossRef
Metadata
Title
Sensitive quantification of 5F-NNEI and characterization of its several metabolites in authentic urine and/or serum specimens obtained from three individuals by LC–QTRAP-MS/MS and high-resolution LC–Orbitrap-MS/MS
Authors
Kayoko Minakata
Hideki Nozawa
Itaru Yamagishi
Koutaro Hasegawa
Takeji Saitoh
Atsuto Yoshino
Masako Suzuki
Takuya Kitamoto
Osamu Suzuki
Kanako Watanabe
Publication date
01-07-2018
Publisher
Springer Japan
Published in
Forensic Toxicology / Issue 2/2018
Print ISSN: 1860-8965
Electronic ISSN: 1860-8973
DOI
https://doi.org/10.1007/s11419-018-0429-6

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