在线固相萃取-液相色谱-线性离子阱质谱法同时检测尿液和血液中51种吲唑类合成大麻素

doi:10.3724/SP.J.1123.2024.02008

摘要/Abstract

摘要：

合成大麻素(SCs)是数量最多的一类新精神活性物质(NPS)。我国于2021年7月起对SCs实行了整类列管。然后,经过结构修饰后产生的新型SCs仍然层出不穷,给法庭科学实验室检测分析带来巨大挑战。因此,亟需构建高效、绿色和自动化的分析检测方法为真实案件样品的准确筛查提供技术支持。同时,吲唑类SCs因药效更强,自2013年后数量急剧增加,是SCs中需要重点关注的一个亚类,也是法庭科学实验室检测分析SCs的主要类别。本文开发了在线固相萃取前处理技术结合液相色谱-线性离子阱质谱(online SPE/LC-LIT-MS)从人体尿液和血液中检测51种吲唑类SCs的分析方法。将加入了51种吲唑类SCs混合标准溶液和内标溶液的人血液或尿液试样经乙腈沉淀蛋白后,用含0.1%甲酸的10 mmol/L醋酸铵溶液(pH=4.8)稀释,过滤后直接进样;以含0.1%甲酸(v/v)的乙腈-含0.1%甲酸的10 mmol/L醋酸铵溶液为流动相进行分析。在全扫描模式下,选择目标分析物的分子离子([M+H]⁺)和保留时间监测其二级离子,共实现了51种吲唑类SCs的定量分析;结合色谱和多级质谱数据也实现了的定性筛查(包括5组同分异构体)。各分析物检出限为0.02~1 ng/mL,定量限为0.04~4 ng/mL(尿液)和0.1~4 ng/mL(血液)。采用线性拟合时(权重因子1/x),各分析物在各自的线性范围内线性关系良好。同时在定量限、低、中、高4个水平下考察了方法的回收率和精密度,回收率为83.47%~116.95%,精密度为0.58%~13.79%。本文方法通过阀切换在动态模式下实现样品的提取、富集和分析,不仅操作简单,还实现了样品的自动化和高通量分析;同时,具有较好的灵敏度和更宽的适用范围,为实际案件中SCs的快速筛查和定量分析提供了科学依据和技术支持。

关键词: 合成大麻素, 吲唑类, 尿液, 血液, 在线固相萃取, 液相色谱-线性离子阱质谱

Abstract:

To evade legal controls, new psychoactive substances (NPS), which have been designed as substitutes for traditional and synthetic drugs, are gradually dominating the drug market. Synthetic cannabinoids (SCs), which account for the majority of NPS, are rapidly being derivatized; consequently, controlling increasing abuse by merely listing individual compounds is difficult. Therefore, China has included the entire SC category of SCs listed as legal controlled substances since July 1, 2021. However, new SCs obtained through structural modification are still appearing and pose significant analytical challenges for forensic laboratories. Therefore, an efficient, green, and automated detection method is urgently required to provide technical support for the accurate screening actual samples. Meanwhile, the number of indazole-type SCs has increased sharply since 2013, which is ascribable to their stronger psychoactive effects. Indeed, forensic laboratories mainly analyze this key SC subclass. Therefore, in this study, we developed a new method for analyzing 51 indazole-type SCs in human urine and blood, which involves online solid-phase extraction (online SPE) as the preprocessing technology, with analysis performed using liquid chromatography-linear ion trap mass spectrometry. Deproteinization was achieved by adding acetonitrile, with dilution performed using 10 mmol/L ammonium acetate solution (pH 4.8) containing 0.1% formic acid. Samples were then analyzed directly using acetonitrile-10 mmol/L ammonium acetate aqueous solution (containing 0.1% formic acid) as the mobile phase. The mass-to-charge ratios of protonated molecular ions ([M+H]⁺) in the mass spectra acquired in full-scan mode, and the retention times in the chromatograms of the analytes were selected with the aim of monitoring the MS² ions of the various compounds. Characteristic fragment ions of the various SC structures were summarized, with five groups of isomers, each containing ten compounds, successfully distinguished using multistage mass spectrometry and their retention times. Multistage MS was used to qualitatively screen 51 indazole-type SCs, which were then quantitatively analyzed using MS² ion pairs (as quantitative ion pairs). The analytes exhibited limits of detection (LODs) of 0.02-1 ng/mL, with limits of quantification (LOQs) of 0.04-4 and 0.1-4 ng/mL in urine and blood, respectively. Linear fitting (weighting factor 1/x) revealed good linearity for each analyte within its respective linear range, with correlation coefficients (R²) greater than 0.99 in both urine and blood. The validity of the analytical method was tested by determining precision and spiked recovery values (n=6). Recoveries of 83.47%-116.95% were obtained at LOQ levels, with precisions of 2.29%-13.40%. In addition, recoveries of 86.63%-113.38% and precisions of 0.58%-13.79% were obtained at low, medium, and high levels. The method described herein is not only easy to operate but also can be automated. Indeed, high-throughput sample analysis was achieved when sample extraction, enrichment, and analysis were performed in dynamic mode through valve switching. Meanwhile, the method exhibited good sensitivity and is applicable to a wider range of compounds than those previously reported; it also provides a scientific basis and technical support for the rapid screening and quantitative analysis of SCs in actual relevant cases.

Key words: synthetic cannabinoids (SCs), indazole-type, urine, blood, online solid-phase extraction (online SPE), liquid chromatography-linear ion trap-mass spectrometry (LC-LIT-MS)

中图分类号:

O658

罗轩, 张珺, 朱定姬, 黄克建, 杨宁, 刘晓锋, 罗秋莲. 在线固相萃取-液相色谱-线性离子阱质谱法同时检测尿液和血液中51种吲唑类合成大麻素[J]. 色谱, 2025, 43(2): 164-176.

LUO Xuan, ZHANG Jun, ZHU Dingji, HUANG Kejian, YANG Ning, LIU Xiaofeng, LUO Qiulian. Simultaneous determination of 51 indazole-type synthetic cannabinoids in urine and blood by online solid-phase extraction-liquid chromatography-linear ion trap mass spectrometry[J]. Chinese Journal of Chromatography, 2025, 43(2): 164-176.

图/表 12

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Analyte	Molecular formula	Retention time/min	Ion pairs (m/z)
4CN-AB-BUTINACA	C₁₈H₂₃N₅O₂	8.32	342>325^*>297, 342>297 (1.4%)
4F-AB-BUTINACA	C₁₇H₂₃FN₄O₂	9.22	335>318^*>290, 335>290 (1.1%)
5F-AB-PINACA	C₁₈H₂₅FN₄O₂	9.86	349>332^*>304, 349>304 (2.7%)
MDMB-INACA	C₁₅H₁₉N₃O₃	10.23	290>258^*, 290>230 (78.9%)
AB-FUBINACA	C₂₀H₂₁FN₄O₂	10.26	369>352^*>324, 369>324 (3.2%)
5F-ADB-PINACA	C₁₉H₂₇FN₄O₂	10.60	363>346^*>318, 363>318 (0.63%)
PX-2	C₂₂H₂₅FN₄O₂	10.62	397>380^*>352, 397>352 (7.8%)
5Cl-AB-PINACA	C₁₈H₂₅ClN₄O₂	10.65	365>348^*>320, 365>320 (0.6%)
ADB-BINACA	C₂₁H₂₄N₄O₂	10.88	365>348^*>320, 365>320 (0.3%)
ADB-FUBINACA	C₂₁H₂₃FN₄O₂	10.94	383>366^*>338, 383>204 (16.4%)
ADB-BUTINACA	C₁₈H₂₆N₄O₂	11.07	331>314^*>286>201, 331>286 (2.3%)
AB-PINACA	C₁₈H₂₆N₄O₂	11.07	331>314^*>286>215, 331>286 (2.3%)
ADB-4en-PINACA	C₁₉H₂₆N₄O₂	11.19	343>326^*>298, 343>298 (8.1%)
4CN-MDMB-BUTINACA	C₂₀H₂₆N₄O₃	11.75	371>311^*, 371>339 (82.0%)
AB-CHMINACA	C₂₀H₂₈N₄O₂	11.83	357>340^*>312, 357>312 (2.2%)
ADB-PINACA	C₁₉H₂₈N₄O₂	11.88	345>328^*>300, 345>300 (1.9%)
4F-MMB-BUTINACA	C₁₈H₂₄FN₃O₃	11.94	350>290^*, 350>318 (71.9%)
4CN-CUMYL-BUTINACA	C₂₂H₂₄N₄O	12.06	361>243^*>226, 361>226 (2.8%)
CUMYL-THPINACA	C₂₃H₂₇N₃O₂	12.40	378>260^*>243, 378>243 (7.4%)
5F-MMB-PINACA	C₁₉H₂₆FN₃O₃	12.53	364>304^*>233, 364>332 (0.3%)
ADB-CHMINACA	C₂₁H₃₀N₄O₂	12.60	371>354^*>326, 371>326 (1.9%)
4F-MDMB-BUTINACA	C₁₉H₂₆FN₃O₃	12.70	364>304^*, 364>332 (62.8%)
MMB-FUBINACA	C₂₁H₂₂FN₃O₃	12.83	384>324^*, 384>352 (35.7%)
4F-CUMYL-BUTINACA	C₂₁H₂₄FN₃O	12.93	354>236^*>219, 354>219 (3.7%)
5F-MDMB-PINACA	C₂₀H₂₈FN₃O₃	13.18	378>318^*, 378>346 (30.9%)
5F-EMB-PINACA	C₂₀H₂₈FN₃O₃	13.18	378>304^*, 378>332 (78.9%)
5Cl-MMB-PINACA	C₁₉H₂₆ClN₃O₃	13.25	380>320^*, 380>348 (50.6%)
5F-CUMYL-PINACA	C₂₂H₂₆FN₃O	13.44	368>250^*>233, 368>233 (2.9%)
MDMB-FUBINACA	C₂₂H₂₄FN₃O₃	13.48	398>338^*, 398>366 (36.6%)
EMB-FUBINACA	C₂₂H₂₄FN₃O₃	13.48	398>324^*, 398>352 (95.5%)
4CN-ABUTINACA	C₂₃H₂₈N₄O	13.73	377>135^*>107, 377>107 (2.2%)
5F-EDMB-PINACA	C₂₁H₃₀FN₃O₃	13.81	392>318^*, 392>346 (85.4%)
5Cl-MDMB-PINACA	C₂₀H₂₈ClN₃O₃	13.88	394>334^*, 394>362 (46.4%)
MDMB-BUTINACA	C₁₉H₂₇N₃O₃	13.89	346>286^*, 346>314 (75.8%)
MDMB-4en-PINACA	C₂₀H₂₇N₃O₃	13.90	358>298^*, 358>326(21.7%)
5F-MN-18	C₂₃H₂₂FN₃O	13.91	376>233^*>213, 376>251 (17.4%)
THJ-2201	C₂₃H₂₁FN₂O	14.09	361>233^*>213, 361>251(24.2%)
5Cl-CUMYL-PINACA	C₂₂H₂₆ClN₃O	14.12	384>266^*>249, 384>249 (3.0%)
5F-SDB-005	C₂₃H₂₁FN₂O₂	14.17	377>233^*>213, 377>251 (26.8%)
4F-ABUTINACA	C₂₂H₂₈FN₃O	14.69	370>135^*>107, 370>107 (1.4%)
EDMB-PINACA	C₂₁H₃₁N₃O₃	15.16	374>328^*, 374>300 (95.4%)
5F-APINACA	C₂₃H₃₀FN₃O	15.22	384>135^*>107, 384>367 (1.4%)
MDMB-CHMINACA	C₂₂H₃₁N₃O₃	15.28	386>326^*, 386>354 (32.9%)
SDB-005	C₂₃H₂₂N₂O₂	15.35	359>215^*>145, 359>233 (4.8%)
MN-18	C₂₃H₂₃N₃O	15.35	358>215^*>145, 358>233 (2.4%)
FUB-APINACA	C₂₅H₂₆FN₃O	15.50	404>135^*>107, 404>387 (15.9%)
APINACA-2H	C₂₃H₃₁N₃O	15.72	366>135^*>107, 366>189 (7.4%)
5F-APINAC	C₂₃H₂₉FN₂O₂	15.74	385>135^*>107, 385>367 (0.3%)
5Cl-APINACA	C₂₃H₃₀ClN₃O	15.90	400>135^*>107, 400>383 (1.1%)
APINACA	C₂₃H₃₁N₃O	16.92	366>135^*>107, 366>107 (2.2%)
ACHMINACA	C₂₅H₃₃N₃O	18.17	392>135^*>107, 392>379 (1.5%)
APINACA-d₉	C₂₃H₂₂D₉N₃O	16.77	375>135^*

Analyte	Molecular formula	Retention time/min	Ion pairs (m/z)
4CN-AB-BUTINACA	C₁₈H₂₃N₅O₂	8.32	342>325^*>297, 342>297 (1.4%)
4F-AB-BUTINACA	C₁₇H₂₃FN₄O₂	9.22	335>318^*>290, 335>290 (1.1%)
5F-AB-PINACA	C₁₈H₂₅FN₄O₂	9.86	349>332^*>304, 349>304 (2.7%)
MDMB-INACA	C₁₅H₁₉N₃O₃	10.23	290>258^*, 290>230 (78.9%)
AB-FUBINACA	C₂₀H₂₁FN₄O₂	10.26	369>352^*>324, 369>324 (3.2%)
5F-ADB-PINACA	C₁₉H₂₇FN₄O₂	10.60	363>346^*>318, 363>318 (0.63%)
PX-2	C₂₂H₂₅FN₄O₂	10.62	397>380^*>352, 397>352 (7.8%)
5Cl-AB-PINACA	C₁₈H₂₅ClN₄O₂	10.65	365>348^*>320, 365>320 (0.6%)
ADB-BINACA	C₂₁H₂₄N₄O₂	10.88	365>348^*>320, 365>320 (0.3%)
ADB-FUBINACA	C₂₁H₂₃FN₄O₂	10.94	383>366^*>338, 383>204 (16.4%)
ADB-BUTINACA	C₁₈H₂₆N₄O₂	11.07	331>314^*>286>201, 331>286 (2.3%)
AB-PINACA	C₁₈H₂₆N₄O₂	11.07	331>314^*>286>215, 331>286 (2.3%)
ADB-4en-PINACA	C₁₉H₂₆N₄O₂	11.19	343>326^*>298, 343>298 (8.1%)
4CN-MDMB-BUTINACA	C₂₀H₂₆N₄O₃	11.75	371>311^*, 371>339 (82.0%)
AB-CHMINACA	C₂₀H₂₈N₄O₂	11.83	357>340^*>312, 357>312 (2.2%)
ADB-PINACA	C₁₉H₂₈N₄O₂	11.88	345>328^*>300, 345>300 (1.9%)
4F-MMB-BUTINACA	C₁₈H₂₄FN₃O₃	11.94	350>290^*, 350>318 (71.9%)
4CN-CUMYL-BUTINACA	C₂₂H₂₄N₄O	12.06	361>243^*>226, 361>226 (2.8%)
CUMYL-THPINACA	C₂₃H₂₇N₃O₂	12.40	378>260^*>243, 378>243 (7.4%)
5F-MMB-PINACA	C₁₉H₂₆FN₃O₃	12.53	364>304^*>233, 364>332 (0.3%)
ADB-CHMINACA	C₂₁H₃₀N₄O₂	12.60	371>354^*>326, 371>326 (1.9%)
4F-MDMB-BUTINACA	C₁₉H₂₆FN₃O₃	12.70	364>304^*, 364>332 (62.8%)
MMB-FUBINACA	C₂₁H₂₂FN₃O₃	12.83	384>324^*, 384>352 (35.7%)
4F-CUMYL-BUTINACA	C₂₁H₂₄FN₃O	12.93	354>236^*>219, 354>219 (3.7%)
5F-MDMB-PINACA	C₂₀H₂₈FN₃O₃	13.18	378>318^*, 378>346 (30.9%)
5F-EMB-PINACA	C₂₀H₂₈FN₃O₃	13.18	378>304^*, 378>332 (78.9%)
5Cl-MMB-PINACA	C₁₉H₂₆ClN₃O₃	13.25	380>320^*, 380>348 (50.6%)
5F-CUMYL-PINACA	C₂₂H₂₆FN₃O	13.44	368>250^*>233, 368>233 (2.9%)
MDMB-FUBINACA	C₂₂H₂₄FN₃O₃	13.48	398>338^*, 398>366 (36.6%)
EMB-FUBINACA	C₂₂H₂₄FN₃O₃	13.48	398>324^*, 398>352 (95.5%)
4CN-ABUTINACA	C₂₃H₂₈N₄O	13.73	377>135^*>107, 377>107 (2.2%)
5F-EDMB-PINACA	C₂₁H₃₀FN₃O₃	13.81	392>318^*, 392>346 (85.4%)
5Cl-MDMB-PINACA	C₂₀H₂₈ClN₃O₃	13.88	394>334^*, 394>362 (46.4%)
MDMB-BUTINACA	C₁₉H₂₇N₃O₃	13.89	346>286^*, 346>314 (75.8%)
MDMB-4en-PINACA	C₂₀H₂₇N₃O₃	13.90	358>298^*, 358>326(21.7%)
5F-MN-18	C₂₃H₂₂FN₃O	13.91	376>233^*>213, 376>251 (17.4%)
THJ-2201	C₂₃H₂₁FN₂O	14.09	361>233^*>213, 361>251(24.2%)
5Cl-CUMYL-PINACA	C₂₂H₂₆ClN₃O	14.12	384>266^*>249, 384>249 (3.0%)
5F-SDB-005	C₂₃H₂₁FN₂O₂	14.17	377>233^*>213, 377>251 (26.8%)
4F-ABUTINACA	C₂₂H₂₈FN₃O	14.69	370>135^*>107, 370>107 (1.4%)
EDMB-PINACA	C₂₁H₃₁N₃O₃	15.16	374>328^*, 374>300 (95.4%)
5F-APINACA	C₂₃H₃₀FN₃O	15.22	384>135^*>107, 384>367 (1.4%)
MDMB-CHMINACA	C₂₂H₃₁N₃O₃	15.28	386>326^*, 386>354 (32.9%)
SDB-005	C₂₃H₂₂N₂O₂	15.35	359>215^*>145, 359>233 (4.8%)
MN-18	C₂₃H₂₃N₃O	15.35	358>215^*>145, 358>233 (2.4%)
FUB-APINACA	C₂₅H₂₆FN₃O	15.50	404>135^*>107, 404>387 (15.9%)
APINACA-2H	C₂₃H₃₁N₃O	15.72	366>135^*>107, 366>189 (7.4%)
5F-APINAC	C₂₃H₂₉FN₂O₂	15.74	385>135^*>107, 385>367 (0.3%)
5Cl-APINACA	C₂₃H₃₀ClN₃O	15.90	400>135^*>107, 400>383 (1.1%)
APINACA	C₂₃H₃₁N₃O	16.92	366>135^*>107, 366>107 (2.2%)
ACHMINACA	C₂₅H₃₃N₃O	18.17	392>135^*>107, 392>379 (1.5%)
APINACA-d₉	C₂₃H₂₂D₉N₃O	16.77	375>135^*

Analyte	Urine					Blood
Analyte	LOD/ (ng/mL)	Linear range/ (ng/mL)		Linear equation	R²	LOD/ (ng/mL)	Linear range/ (ng/mL)		Linear equation	R²
4CN-AB-BUTINACA	0.4	1-	100	y=0.0608x-0.0041	0.9985	0.2	0.4-	100	y=0.0388x-0.0052	0.9990
4F-AB-BUTINACA	0.4	1-	100	y=0.0655x-0.0339	0.9989	0.4	1-	100	y=0.0501x-0.0303	0.9966
5F-AB-PINACA	0.4	1-	100	y=0.0592x-0.0128	0.9986	0.4	1-	100	y=0.0518x+0.1853	0.9963
MDMB-INACA	1	2-	80	y=0.0749x-0.0696	0.9958	0.2	1-	40	y=0.0627x-0.0319	0.9964
AB-FUBINACA	0.2	1-	80	y=0.0482x-0.0195	0.9987	0.4	1-	100	y=0.0471x-0.0008	0.9962
5F-ADB-PINACA	0.2	0.4-	80	y=0.0347x-0.0026	0.9963	0.4	1-	80	y=0.0358x+0.0037	0.994
PX-2	0.2	0.4-	100	y=0.0922x-0.0116	0.9987	0.1	1-	100	y=0.0944x+0.0175	0.9969
5Cl-AB-PINACA	0.4	1-	100	y=0.0554x-0.0150	0.9961	1	4-	100	y=0.0593x+0.0437	0.9959
ADB-BINACA	1	4-	100	y=0.0244x-0.0536	0.9955	1	2-	100	y=0.0276x-0.0271	0.9951
ADB-FUBINACA	0.4	1-	100	y=0.0237x-0.0089	0.9960	1	2-	100	y=0.0242x-0.0055	0.9960
ADB-BUTINACA	0.1	0.4-	40	y=0.0780x-0.0036	0.9951	0.1	0.2-	80	y=0.0688x+0.0037	0.9958
AB-PINACA	0.1	0.4-	40	y=0.0780x-0.0036	0.9951	0.1	0.2-	80	y=0.0688x+0.0037	0.9958
ADB-4en-PINACA	0.4	1-	100	y=0.0195x-0.0021	0.9955	0.4	1-	100	y=0.0177x+0.0009	0.9970
4CN-MDMB-BUTINACA	0.04	0.4-	100	y=0.6366x-0.0701	0.9974	0.02	0.2-	100	y=0.7464x-0.0395	0.9989
AB-CHMINACA	0.1	0.4-	100	y=0.0617x-0.0053	0.9983	0.04	0.2-	40	y=0.0798x+0.0021	0.996
ADB-PINACA	0.4	1-	40	y=0.0136x+0.0053	0.9932	0.4	1-	40	y=0.0134x+0.0144	0.9903
4F-MMB-BUTINACA	0.04	0.1-	100	y=1.1110x-0.0292	0.9984	0.04	0.2-	100	y=1.1321x-0.0572	0.9983
4CN-CUMYL-BUTINACA	0.04	0.1-	40	y=0.5143x-0.0158	0.9966	0.04	0.2-	100	y=0.4580x-0.0157	0.9961
CUMYL-THPINACA	0.1	0.2-	100	y=0.1605x+0.0039	0.9958	0.1	0.2-	100	y=0.1387x+0.0041	0.9933
5F-MMB-PINACA	0.04	0.1-	100	y=1.1653x-0.0371	0.9990	0.04	0.2-	100	y=1.2467x-0.0542	0.9981
ADB-CHMINACA	0.4	1-	80	y=0.0239x-0.0018	0.9957	0.4	1-	40	y=0.0307x+0.0032	0.9946
4F-MDMB-BUTINACA	0.04	0.1-	100	y=0.8691x-0.0237	0.9993	0.04	0.2-	100	y=0.8810x-0.0397	0.9988
MMB-FUBINACA	0.02	0.1-	100	y=0.8590x-0.0247	0.9988	0.02	0.2-	100	y=1.0823x-0.0531	0.9983
4F-CUMYL-BUTINACA	0.04	0.2-	100	y=0.2372x+0.0072	0.9976	0.02	0.2-	100	y=0.1428x+0.0002	0.9974
5F-MDMB-PINACA	0.04	0.1-	100	y=0.9169x-0.0010	0.9968	0.02	0.1-	100	y=0.9966x+0.0486	0.9962
5F-EMB-PINACA	0.02	0.04-	100	y=0.8774x-0.0098	0.9979	0.02	0.2-	100	y=0.9603x-0.0062	0.9969
5Cl-MMB-PINACA	0.04	0.2-	100	y=0.6880x+0.0292	0.9975	0.04	0.2-	100	y=0.7391x+0.0169	0.9965
5F-CUMYL-PINACA	0.04	0.4-	100	y=0.2960x-0.0194	0.9972	0.04	0.4-	100	y=0.2143x+0.0075	0.9953
MDMB-FUBINACA	0.04	0.1-	80	y=0.7709x-0.0219	0.9962	0.04	0.2-	40	y=0.9096x-0.0446	0.9970
EMB-FUBINACA	0.04	0.1-	80	y=0.6790x-0.0209	0.9976	0.04	0.2-	40	y=0.8287x-0.0331	0.9973
4CN-ABUTINACA	0.04	0.2-	100	y=0.5181x+0.0197	0.9976	0.02	0.2-	100	y=0.6322x-0.0393	0.9974
5F-EDMB-PINACA	0.04	0.2-	100	y=0.5716x+0.0262	0.9978	0.04	0.2-	100	y=0.6233x+0.0152	0.9961
5Cl-MDMB-PINACA	0.04	0.2-	100	y=0.7639x+0.0035	0.9982	0.02	0.2-	100	y=0.8016x+0.0032	0.9959
MDMB-BUTINACA	0.02	0.04-	100	y=0.7882x-0.0055	0.9967	0.04	0.2-	100	y=0.8075x-0.0178	0.9977
MDMB-4en-PINACA	0.02	0.04-	100	y=1.3750x-0.0117	0.9968	0.02	0.2-	100	y=1.4463x+0.0261	0.9957
5F-MN-18	0.04	0.1-	80	y=1.1690x-0.0370	0.9963	0.04	0.2-	100	y=1.1100x-0.0460	0.9971
THJ-2201	0.2	1-	100	y=0.3411x-0.0975	0.9977	0.1	1-	100	y=0.3746x-0.1636	0.9955
5Cl-CUMYL-PINACA	0.1	0.4-	40	y=0.2143x-0.0149	0.9964	0.1	0.2-	40	y=0.1727x-0.0065	0.9937
5F-SDB-005	0.1	0.4-	100	y=0.1184x+0.0039	0.9965	0.1	0.2-	100	y=0.1390x-0.0068	0.9970
4F-ABUTINACA	0.02	0.4-	100	y=0.4280x-0.0284	0.9989	0.02	0.2-	100	y=0.4201x-0.0210	0.9983
EDMB-PINACA	0.04	0.2-	100	y=0.6040x+0.0257	0.9968	0.02	0.2-	100	y=0.6436x-0.0040	0.9958
5F-APINACA	0.04	0.2-	100	y=0.3369x+0.0143	0.9974	0.04	0.2-	100	y=0.3707x-0.0004	0.9960
MDMB-CHMINACA	0.04	0.1-	100	y=1.0240x-0.0188	0.9986	0.02	0.2-	100	y=1.1423x-0.0111	0.9961
SDB-005	0.1	0.2-	40	y=0.1540x+0.0156	0.9948	0.04	0.2-	40	y=0.1874x+0.0125	0.9938
MN-18	0.2	1-	100	y=0.9463x-0.2444	0.9954	0.1	0.2-	100	y=1.0564x-0.0026	0.9975
FUB-APINACA	0.04	0.4-	100	y=0.2070x-0.0032	0.9977	0.04	0.2-	100	y=0.2159x-0.0045	0.9976
APINACA-2H	0.2	1-	100	y=0.3442x-0.0990	0.9985	0.1	0.4-	100	y=0.5830x+0.0326	0.9954
5F-APINAC	0.1	0.4-	100	y=0.0516x+0.0021	0.9956	0.1	0.4-	80	y=0.0528x+0.0043	0.9950
5Cl-APINACA	0.1	0.4-	100	y=0.2084x-0.0116	0.9985	0.04	0.2-	100	y=0.2279x-0.0098	0.9972
APINACA	0.02	0.04-	100	y=0.3452x+0.0031	0.9989	0.02	0.2-	100	y=0.3491x-0.0070	0.9992
ACHMINACA	0.1	0.4-	100	y=0.2125x+0.0019	0.9993	0.04	0.2-	100	y=0.2051x-0.0036	0.9990

Analyte	Urine					Blood
Analyte	LOD/ (ng/mL)	Linear range/ (ng/mL)		Linear equation	R²	LOD/ (ng/mL)	Linear range/ (ng/mL)		Linear equation	R²
4CN-AB-BUTINACA	0.4	1-	100	y=0.0608x-0.0041	0.9985	0.2	0.4-	100	y=0.0388x-0.0052	0.9990
4F-AB-BUTINACA	0.4	1-	100	y=0.0655x-0.0339	0.9989	0.4	1-	100	y=0.0501x-0.0303	0.9966
5F-AB-PINACA	0.4	1-	100	y=0.0592x-0.0128	0.9986	0.4	1-	100	y=0.0518x+0.1853	0.9963
MDMB-INACA	1	2-	80	y=0.0749x-0.0696	0.9958	0.2	1-	40	y=0.0627x-0.0319	0.9964
AB-FUBINACA	0.2	1-	80	y=0.0482x-0.0195	0.9987	0.4	1-	100	y=0.0471x-0.0008	0.9962
5F-ADB-PINACA	0.2	0.4-	80	y=0.0347x-0.0026	0.9963	0.4	1-	80	y=0.0358x+0.0037	0.994
PX-2	0.2	0.4-	100	y=0.0922x-0.0116	0.9987	0.1	1-	100	y=0.0944x+0.0175	0.9969
5Cl-AB-PINACA	0.4	1-	100	y=0.0554x-0.0150	0.9961	1	4-	100	y=0.0593x+0.0437	0.9959
ADB-BINACA	1	4-	100	y=0.0244x-0.0536	0.9955	1	2-	100	y=0.0276x-0.0271	0.9951
ADB-FUBINACA	0.4	1-	100	y=0.0237x-0.0089	0.9960	1	2-	100	y=0.0242x-0.0055	0.9960
ADB-BUTINACA	0.1	0.4-	40	y=0.0780x-0.0036	0.9951	0.1	0.2-	80	y=0.0688x+0.0037	0.9958
AB-PINACA	0.1	0.4-	40	y=0.0780x-0.0036	0.9951	0.1	0.2-	80	y=0.0688x+0.0037	0.9958
ADB-4en-PINACA	0.4	1-	100	y=0.0195x-0.0021	0.9955	0.4	1-	100	y=0.0177x+0.0009	0.9970
4CN-MDMB-BUTINACA	0.04	0.4-	100	y=0.6366x-0.0701	0.9974	0.02	0.2-	100	y=0.7464x-0.0395	0.9989
AB-CHMINACA	0.1	0.4-	100	y=0.0617x-0.0053	0.9983	0.04	0.2-	40	y=0.0798x+0.0021	0.996
ADB-PINACA	0.4	1-	40	y=0.0136x+0.0053	0.9932	0.4	1-	40	y=0.0134x+0.0144	0.9903
4F-MMB-BUTINACA	0.04	0.1-	100	y=1.1110x-0.0292	0.9984	0.04	0.2-	100	y=1.1321x-0.0572	0.9983
4CN-CUMYL-BUTINACA	0.04	0.1-	40	y=0.5143x-0.0158	0.9966	0.04	0.2-	100	y=0.4580x-0.0157	0.9961
CUMYL-THPINACA	0.1	0.2-	100	y=0.1605x+0.0039	0.9958	0.1	0.2-	100	y=0.1387x+0.0041	0.9933
5F-MMB-PINACA	0.04	0.1-	100	y=1.1653x-0.0371	0.9990	0.04	0.2-	100	y=1.2467x-0.0542	0.9981
ADB-CHMINACA	0.4	1-	80	y=0.0239x-0.0018	0.9957	0.4	1-	40	y=0.0307x+0.0032	0.9946
4F-MDMB-BUTINACA	0.04	0.1-	100	y=0.8691x-0.0237	0.9993	0.04	0.2-	100	y=0.8810x-0.0397	0.9988
MMB-FUBINACA	0.02	0.1-	100	y=0.8590x-0.0247	0.9988	0.02	0.2-	100	y=1.0823x-0.0531	0.9983
4F-CUMYL-BUTINACA	0.04	0.2-	100	y=0.2372x+0.0072	0.9976	0.02	0.2-	100	y=0.1428x+0.0002	0.9974
5F-MDMB-PINACA	0.04	0.1-	100	y=0.9169x-0.0010	0.9968	0.02	0.1-	100	y=0.9966x+0.0486	0.9962
5F-EMB-PINACA	0.02	0.04-	100	y=0.8774x-0.0098	0.9979	0.02	0.2-	100	y=0.9603x-0.0062	0.9969
5Cl-MMB-PINACA	0.04	0.2-	100	y=0.6880x+0.0292	0.9975	0.04	0.2-	100	y=0.7391x+0.0169	0.9965
5F-CUMYL-PINACA	0.04	0.4-	100	y=0.2960x-0.0194	0.9972	0.04	0.4-	100	y=0.2143x+0.0075	0.9953
MDMB-FUBINACA	0.04	0.1-	80	y=0.7709x-0.0219	0.9962	0.04	0.2-	40	y=0.9096x-0.0446	0.9970
EMB-FUBINACA	0.04	0.1-	80	y=0.6790x-0.0209	0.9976	0.04	0.2-	40	y=0.8287x-0.0331	0.9973
4CN-ABUTINACA	0.04	0.2-	100	y=0.5181x+0.0197	0.9976	0.02	0.2-	100	y=0.6322x-0.0393	0.9974
5F-EDMB-PINACA	0.04	0.2-	100	y=0.5716x+0.0262	0.9978	0.04	0.2-	100	y=0.6233x+0.0152	0.9961
5Cl-MDMB-PINACA	0.04	0.2-	100	y=0.7639x+0.0035	0.9982	0.02	0.2-	100	y=0.8016x+0.0032	0.9959
MDMB-BUTINACA	0.02	0.04-	100	y=0.7882x-0.0055	0.9967	0.04	0.2-	100	y=0.8075x-0.0178	0.9977
MDMB-4en-PINACA	0.02	0.04-	100	y=1.3750x-0.0117	0.9968	0.02	0.2-	100	y=1.4463x+0.0261	0.9957
5F-MN-18	0.04	0.1-	80	y=1.1690x-0.0370	0.9963	0.04	0.2-	100	y=1.1100x-0.0460	0.9971
THJ-2201	0.2	1-	100	y=0.3411x-0.0975	0.9977	0.1	1-	100	y=0.3746x-0.1636	0.9955
5Cl-CUMYL-PINACA	0.1	0.4-	40	y=0.2143x-0.0149	0.9964	0.1	0.2-	40	y=0.1727x-0.0065	0.9937
5F-SDB-005	0.1	0.4-	100	y=0.1184x+0.0039	0.9965	0.1	0.2-	100	y=0.1390x-0.0068	0.9970
4F-ABUTINACA	0.02	0.4-	100	y=0.4280x-0.0284	0.9989	0.02	0.2-	100	y=0.4201x-0.0210	0.9983
EDMB-PINACA	0.04	0.2-	100	y=0.6040x+0.0257	0.9968	0.02	0.2-	100	y=0.6436x-0.0040	0.9958
5F-APINACA	0.04	0.2-	100	y=0.3369x+0.0143	0.9974	0.04	0.2-	100	y=0.3707x-0.0004	0.9960
MDMB-CHMINACA	0.04	0.1-	100	y=1.0240x-0.0188	0.9986	0.02	0.2-	100	y=1.1423x-0.0111	0.9961
SDB-005	0.1	0.2-	40	y=0.1540x+0.0156	0.9948	0.04	0.2-	40	y=0.1874x+0.0125	0.9938
MN-18	0.2	1-	100	y=0.9463x-0.2444	0.9954	0.1	0.2-	100	y=1.0564x-0.0026	0.9975
FUB-APINACA	0.04	0.4-	100	y=0.2070x-0.0032	0.9977	0.04	0.2-	100	y=0.2159x-0.0045	0.9976
APINACA-2H	0.2	1-	100	y=0.3442x-0.0990	0.9985	0.1	0.4-	100	y=0.5830x+0.0326	0.9954
5F-APINAC	0.1	0.4-	100	y=0.0516x+0.0021	0.9956	0.1	0.4-	80	y=0.0528x+0.0043	0.9950
5Cl-APINACA	0.1	0.4-	100	y=0.2084x-0.0116	0.9985	0.04	0.2-	100	y=0.2279x-0.0098	0.9972
APINACA	0.02	0.04-	100	y=0.3452x+0.0031	0.9989	0.02	0.2-	100	y=0.3491x-0.0070	0.9992
ACHMINACA	0.1	0.4-	100	y=0.2125x+0.0019	0.9993	0.04	0.2-	100	y=0.2051x-0.0036	0.9990

Matrix	Number of analytes	Number of isomers	Pre-treatment methods	Analytical method	LOD/ (ng/mL)		LOQ/ (ng/mL)		Ref.
Urine	51	5 groups, 10	PPT/online SPE	LC-LIT-MS	0.02-	1	0.04-	4	this study
	17 metabolites	0	LLE	LC-MS/MS	0.01-	0.5	0.1-	0.5	[31]
	6	0	LLE	LC-MS/MS	0.003-	0.008	0.01		[45]
	11	0	SPE	LC-MS/MS	/		0.01-	0.1	[17]
Blood	51	5 groups, 10	PPT/online SPE	LC-LIT-MS	0.02-	1	0.1-	4	this study
	72	8 groups, 18	PPT	LC-MS/MS	0.01-	0.48	/		[29]
	23	1 group, 2	PPT	DART-MS/MS	0.01-	1	10		[46]
	6	0	PPT/SPE	UPLC-MS/MS	0.01-	0.05	0.05-	0.1	[30]
	15	1 group, 2	LLE	LC-MS/MS	0.025-	0.01	0.05-	0.1	[31]
	10	0	QuEChERS	UPLC-QE-Orbitrap-MS	0.01-	0.05	0.05-	0.20	[24]