LC/MS分析血浆中丁丙诺啡

目的建立血浆中丁丙诺啡液相色谱/质谱（LC/MS）分析方法。方法在含有丁丙诺啡的血浆中,加入内标奋乃静,加pH10.8缓冲溶液,用401有机担体作吸附剂、三氯甲烷作洗脱剂固相萃取,N2挥干,用50μL流动相定容后进行LC/MS分析。色谱条件：Thermo Hypersil-HyPURITY C18（150×2.1mm,5μm）,柱温：40℃,流动相：10mmol/LNH4AC（pH3.4）∶甲醇∶乙腈=36∶52∶12,流速：0.22mL/min。结果方法的线性范围为0.05～5.0μg/L（r=0.9998）,定量限0.05μg/L,检出限0.01μg/L（S/N=3）;3个浓度的质量控制样品（0.1μg/L,0.5μg/L,2.0μg/L）平均回收率分别为86.40%,92.72%,92.57%,RSD分别为4.51%,3.34%,2.09%。结论该方法操作简便、灵敏度高,可用于涉毒案件血浆中丁丙诺啡的分析。     

高效液相色谱法测定盐酸曲马多血药浓度

目的 建立测定人血浆中盐酸曲马多浓度的HPLC-UV法。方法 血浆样品经碱化后,用二氯甲烷提取。采用依利特C18色谱柱(5μm),流动相为乙腈-磷酸盐缓冲液(74:26,pH6.5),检测波长为220um。结果 盐酸曲马多浓度在10～800ng/ml范围内与曲马多/内标物峰高比呈良好线性关系,r=0.9984,平均回收率为93.48％,最低定量检测浓度为10ng/ml;日内及日间RSD分别为3.81％～5.44％和3.95％～4.41％。结论HPLC-UV法用于血浆中盐酸曲马多浓度的检测,符合司法毒物分析及临床药血浓度测定的要求。     

UPLC-MS/MS检测人血中18种有机磷及氨基甲酸酯类农药

目的建立人血中18种有机磷及氨基甲酸酯类农药超高压液相色谱-串联质谱(UPLC-MS/MS)的检测方法。方法血液中加入乙腈沉淀蛋白,采用Waters BEH C18(1.7μm 2.1×50mm)柱子,流动相为5mmol/L乙酸铵水-甲醇,流速:0.3m L/min;进样量:2μL,电喷雾离子源(ESI),正离子检测,采用多反应监测方式进行定量分析。结果药物最小检测限(LOD)在0.1~40ng/m L之间,定量限(LOQ)在0.5~50ng/m L之间,各药物浓度在定量限到500ng/m L范围内线性良好,回收率均在64.3%~111.9%之间,相对标准偏差为3.9%~10.3%。结论该方法专属性强、灵敏、准确,可以适用于法庭与临床毒物分析。     

Rapid isolation of some antiepileptic hydantoins and their analogues with Sep-Pak C18 cartridges and capillary gas chromatography with splitless injection

A simple and rapid method for isolation of seven antiepileptics (2 hydantoin, 2 oxazolidin, and 3 suximide derivatives) from urine and plasma is presented. Urine and plasma (1 ml) samples containing seven antiepileptics were mixed with distilled water (4 ml), and the sample solution was poured into a pretreated Sep-Pak C18 cartridge; this was washed with water and chloroform/methanol was passed through it to elute the antiepileptics. The eluate was mixed with isoamyl acetate and evaporated under a stream of N2. The drugs were detected by gas chromatography with fused silica capillary columns, splitless injection and flame ionization detection. Separation of the seven antiepileptics from each other and from impurities was satisfactory with the use of an SPB-1 capillary column. The detection limit for the seven antiepileptics with the present method was 0.1-1.0 microgram/ml urine or plasma. The recovery of the drugs from urine and plasma was more than 70% and 50%, respectively.     

Rapid extraction and capillary gas chromatography for diazine herbicides in human body fluids

A simple and rapid method for the extraction of four diazine herbicides (terbacil, bromacil, norflurazon and PAC) from human whole blood, plasma and urine with use of Bond Elut C₁₈ cartridges is presented. Whole blood, plasma and urine samples containing the herbicides, after mixing with distilled water, were loaded on Bond Elut C₁₈ cartridges and the herbicides were eluted with chloroform/methanol (9:1). They were detected by capillary gas chromatography with flame ionization detection (FID) with splitless injection. Separation of the four diazine herbicides from each other and from impurities was generally satisfactory with the use of an intermediately polar DB-17 capillary column. The recovery of all compounds, which had been added to whole blood, plasma and urine, was > 89%. The calibration curve for the herbicides, which has been added to whole blood, plasma and urine, showed linearity in the range 1.6–100 ng on column. Their detection limits were 1.2–1.4 ng on column for whole blood and plasma, and 1.1–1.2 ng on column for urine.     

The detection of isoniazide in the cadaveric blood and plasma by high performance liquid chromatography with a diode matrix detector

The authors describe the analytical procedure for the rapid detection of isoniazide in the cadaveric blood and plasma using high performance liquid chromatography with a diode matrix detector (HPLC-DAD). The method is designed for toxicological and forensic medical analyses. The preliminary preparation of the samples includes protein precipitation with trichloroacetic acid, formation of isoniazide derivatives with cinnamic aldehyde, and chromatographic analysis on an Eclipse XDB-C18 column with registration of absorption at a wavelength of 340 nm. The mobile phase is a mixture of methanol and 0.05 M ammonium acetate buffer (50:50 v/v), pH 3.8. The detection limit is 0.5 mcg/ml in plasma and 1 mcg/ml in blood hemolizate. The qualitative determination is possible in a concentration range from 2 to 200 mcg/ml. Mean square deviation does not exceed 12% in a concentration interval from 2 to 50 mcg/ml.     

用固相萃取法提取净化生物检材中拟除虫菊酯类杀虫剂的实验研究

固相萃取法（Sep－PakC18小柱）同时萃取净化生物检材（血浆、尿）中的甲醚菊酯、灭扫利、功夫、二氯苯醚菊酯、安绿宝、速灭杀丁和敌杀死。通过气相色谱氢焰检测器、非极性熔融石英大口径毛细管柱及程序升温色谱条件，得到较好的系统分离，并测定萃取回收率在81％～93％（血浆）和90％～102％之间（尿）。实验证明，用70％甲醇稀释检材并用氯仿洗脱可得到较完全的吸附和最佳回收率。     

LC-MS／MS法测定人血浆中盐酸洛哌丁胺

目的建立人血浆中盐酸洛哌丁胺的液相色谱-质谱联用测定法（LC-MS／MS）。方法血浆样品中盐酸洛哌丁胺与盐酸小檗碱（内标）经甲醇液．液提取后,采用ZORBAXSB—C18色谱柱（2．1mm×150mm×5μm）,柱温35℃,流动相为乙腈：0．1％甲酸（60：40,V／V）,流速为0．4mL／min,进样量10μL。电喷雾离子源（ESI）,正离子检测,以多反应监测（MRM）方式进行定量分析,用于监测的离子为m／z477→266（盐酸洛哌丁胺）和m／z366→292（内标）。结果盐酸洛哌丁胺的检测下限为0．2ng／mL（S／N=3）,在浓度0．5～500ng／mL范围内线性良好（r=0．9982）,低、中、高浓度（1ng／mL、20ng／mL、400ng／mL）的平均回收率分别为84．6％,88．5％和90．2％,日内与日问RSD分别小于6％与7％。结论LC—MS／MS法可用于盐酸洛哌丁胺的定性定量分析。     

Rapid isolation of benzodiazepines with Sep-Pak C18 cartridges

A rapid method for isolation of various benzodiazepines from human samples with Sep-Pak C18 cartridges before wide-bore capillary gas chromatography is described. The drugs dissolved in alkaline samples were directly applied to the cartridges and eluted with hexane/isopropanol (9:1). The recoveries were excellent for all drugs in urine samples, but were somewhat lower for some drugs in plasma samples. The latter problem could be easily circumvented by using a deproteinization process before their application to the cartridge. We can recommend the Sep-Pak C18 cartridges for isolation of benzodiazepines because of their simplicity and rapidity.     

SPE-LC-MS/MS法测定尿液与血液中海洛因3种代谢物

目的采用SPE-LC-MS/MS方法,同时检测尿液与血液中海洛因主要代谢物3-β-D-葡萄糖醛酸吗啡(M3G)、吗啡和O6-单乙酰吗啡(O6)。方法采用BAKERBONDTMspe Octadecyl(C18)进行提取,应用LC-MS/MS方法检测并通过MRM及内标法进行量化。结果尿液中M3G、吗啡、O6-单乙酰吗啡的最低检测限(LOD)分别为1.24pg、6.71pg、0.47pg;回收率依次为82.25±12.25%、93.75±13.25%、88.70±11.90%。血液中M3G、吗啡、O6-单乙酰吗啡的最低检测限分别为1.50pg、8.21pg、0.52pg。回收率依次为89.85±21.15%、73.70±17.90%、90.10±3.90%。结论本文所建方法同时适用于尿液与血液中海洛因主要代谢物M3G、吗啡、O6-单乙酰吗啡的提取、净化、分析。     

水和生物体液中3种镇痛麻醉药中空纤维膜液相微萃取

目的研究采用中空纤维膜液相微萃取(hollowfiber liquid phase microextraction,HF-LPME)法提取水和生物体液中的哌替啶,氯胺酮,曲马多。方法样品调节至pH11.5和盐饱和,磁力搅拌器转速为600转/min,内标为盐酸萘福泮,取4μl甲苯,注入到聚偏氟乙烯中空纤维膜中,萃取20min,抽回1μl甲苯进入GC中进行分析。结果血浆、尿、水相关系数R2:哌替啶分别为0.9935、0.9981、0.9997,氯胺酮分别为0.9906、0.9913、0.9927,曲马多分别为0.9741、0.9913、0.9970;检测限:水、尿中哌替啶、氯胺酮、曲马多均为0.01μg/ml,血浆中哌替啶、氯胺酮、曲马多均为0.05μg/ml;血浆、尿、水日内RSD:哌替啶分别为13.0%、7.3%、4.6%,氯胺酮分别为15.1%、13.6%、1.4%,曲马多分别为3.7%、4.3%、9.0%;血浆、尿、水日间RSD:哌替啶分别为15.1%、13.5%、12.2%,氯胺酮分别为12.3%、5.3%、6.0%,曲马多分别为7.1%、15.5%、11.9%;血浆、尿、水相对回收率:哌替啶分别为109.80%、93.49%、97.57%,氯胺酮分别为91.09%、101.80%、100.40%,曲马多分别为106.40%、92.94%、113.32%。结论中空纤维膜液相微萃取用于水和生物体液中的哌替啶,氯胺酮,曲马多的分析,所需有机溶剂少,避免残留和交叉污染,集萃取,富集,进样于一步完成,简单,高效,实用。     

反相高效液相色谱法测定人血浆中的吲哚美辛

建立血浆中吲哚美辛的高效液相色谱分析方法 ,扩大药 (毒 )物检测范围及手段 ,以适应法医学鉴定的特殊需要。以空白血浆标准添加吲哚美辛对样品处理方法、线性关系、回收率及精度进行考察 ,并以所建方法对健康受试者的血液浓度进行监测。方法的线性范围是 0 1～ 5 0 μg·ml-1,γ =0 9995 ,最小检出浓度为 0 0 2 μg·ml-1(S/N≥ 3)。日内、日间的方法精密度为 ( 1 1± 0 2 ) % (n =4)和 ( 2 7± 0 6 ) % (n =4) ,加样回收率为 97 5 %～10 4 2 %。所建方法准确、便捷、选择性好 ,可用于法医学鉴定及血液浓度监测     

血清中盐酸曲马多的膜式固相萃取及GC／MS／SIM测定

目的建立血清中盐酸曲马多的膜式固相萃取(SPE)气-质联用分析方法。方法1mL血清用2mL0.1mol/L磷酸盐缓冲液(pH6)稀释后,用含有C18和强酸型强阳离子交换基团的SPECC18AR/MP3固相萃取柱萃取,洗脱液为含2%氨水的乙酸乙酯;选择SKF525作为内标物,用GC/MS/SIM定量测定。结果在加标量为0.1、0.2和0.5μg/mL的血清样品中,盐酸曲马多的回收率分别为98.9%、92.5%和84.8%,5次测定的RSD分别为3.2%、8.7%和10.9%;线性范围为0.1～4μg/mL,多项式回归相关系数r2=0.9939;检出限为21ng/mL;同一根萃取柱,连续使用5次,没有出现堵塞和污染,回收率及RSD未见下降。结论本方法适合于法医毒物分析。     

Rapid isolation with Sep-Pak C18 cartridges and wide-bore capillary gas chromatography of organophosphate pesticides

A simple and rapid method for isolation of eleven organophosphate pesticides with Sep-Pak C18 cartridges from human urine and plasma, is presented. The detection of the pesticides was made by wide-bore capillary gas chromatography (GC) with flame ionization detection. The pesticide-containing samples, after mixing with water, were directly applied to the cartridges and eluted with chloroform/isopropanol (9:1). The recoveries with use of the cartridges were excellent for most pesticides. Separation of each pesticide peak from each other and from impurities on the gas chromatograms was also satisfactory with use of non-polar and slightly polar capillary columns. The isolation method with use of the cartridges, together with the wide-bore capillary GC, seems very useful in forensic and environmental chemistry and clinical toxicology.     

Solid phase extraction method for rapid isolation and clean-up of some synthetic pyrethroid insecticides from human urine and plasma.

A simple and rapid method for the isolation of seven synthetic pyrethroid insecticides (methothrin, fenpropathrin, cyhalothrin, permethrin, cypermethrin, fenvalerate, deltamethrin) with a solid phase extraction (SPE), utilizing Sep-Pak C18 cartridges, from human urine and plasma is presented. The detection of the insecticides was performed using a wide bore capillary gas chromatograph (GC) with flame ionization detection (FID). The insecticide-containing samples mixed with 70% methanol were directly applied to the cartridges and eluted with 2 ml chloroform. The recoveries using the cartridges were between 90-102% for urine and 81-93% for plasma. Mixing samples with 70% methanol prior to extraction, seems very useful for the screening of synthetic pyrethroid insecticides.     

固相微萃取-气相色谱质谱法测定血浆中的氯氮平浓度

目的建立固相微萃取-气相色谱质谱法测定人血浆中氯氮平浓度的方法。方法以固相微萃取法提取血浆中的氯氮平,萃取头为100μm聚二甲基硅氧烷,洛沙平作内标,用气相色谱质谱选择离子法进行检测。结果本文建立的方法在5~2000 ng/ml浓度范围内呈线性关系,检测限为0.1 ng/ml(信噪比>3),低、中、高浓度(100、500、1000 ng/ml)平均相对回收率分别为98.6%、94.6%和94.6%,日内、日间RSD分别小于7.4%和7.1%。结论本文建立的固相微萃取-气相色谱质谱法灵敏度高、准确度好、操作简便,适用于氯氮平急性中毒案件的检测。     

固相萃取-气相色谱法检测全血中佐匹克隆

目的采用固相萃取-气相色谱法检测全血中佐匹克隆。方法采用Oasis HLB固相萃取柱对样品进行前处理,去离子水、0.5%氨水-甲醇/水((V/V 40∶60)溶液先后淋洗,二氯甲烷/异丙醇(V/V 75∶25)洗脱后进行GC/NPD检测。结果血液中佐匹克隆在50～5 000ng/mL范围内线性良好(R2=0.998 8),平均萃取回收率为96.9%,检出限为30ng/mL,日内RSD为2.1%～5.7%,日间RSD为3.3%～6.2%,结论固相萃取-气相色谱检测法灵敏度高,重现性好,可在血液中佐匹克隆的检测中选用。     

UPLC-MS/MS测定全血中的氯丙嗪

目的建立全血中氯丙嗪的UPLC-MS/MS分析方法。方法采用乙腈沉淀蛋白,以Waters ACQUITY UPLCBEH C18柱(2.1mm×50mm,1.7μm)分离,乙腈-0.1%甲酸水溶液为流动相,梯度洗脱,正离子方式检测,多反应离子监测模式(MRM)。结果血液中氯丙嗪在1～100ng/mL范围内线形关系良好,检出限为0.01ng/mL,回收率为81.81%～89.36%,日内、日间精密度分别为9.3%、12.1%。结论本方法准确、快速,可用于全血中氯丙嗪的定性定量分析。     

Validation of an LC–MS Method for the Detection and Quantification of BZP and TFMPP and their Hydroxylated Metabolites in Human Plasma and its Application to the Pharmacokinetic Study of TFMPP in Humans*

Abstract: An LC–MS method was developed for benzylpiperazine (BZP) and trifluoromethylphenylpiperazine (TFMPP), constituents of “party pills” or “legal herbal highs,” and their metabolites in human blood plasma. Compounds were resolved using a mixture of ammonium formate (pH 4.5, 0.01 M) and acetonitrile (flow rate of 1.0 mL/min) with a C18 column. Calibration curves were linear from 1 to 50 ng/mL (R² > 0.99); the lower limit of quantification (LLOQ) was 5 ng/mL; the accuracy was >90%; the intra‐ and interday relative standard deviations (R.S.D) were <5% and <10%, respectively. Human plasma concentrations of TFMPP were measured in blood samples taken from healthy adults (n = 6) over 24 h following a 60‐mg oral dose of TFMPP: these peaked at 24.10 ng/mL (±1.8 ng/mL) (C_max) after 90 min (T_max). Plasma concentrations of 1‐(3‐trifluoromethyl‐4‐hydroxyphenyl) piperazine peaked at 20.2 ng/mL (±4.6 ng/mL) after 90 min. TFMPP had two disposition phases (t_½ = 2.04 h (±0.19 h) and 5.95 h (±1.63 h). Apparent clearance (Cl/F) was 384 L/h (±45 L/h).     

Rapid isolation with Sep-Pak C18 cartridges and wide-bore capillary gas chromatography of some butyrophenones

A simple and rapid method for isolation of five butyrophenones with Sep-Pak C18 cartridges from human samples, and their wide-bore capillary gas chromatography (GC), are presented. The GC was made by both flame ionization and electron capture detections. The drugs contained in alkaline samples were directly applied to the cartridges and eluted with chloroform/isopropanol (9:1). The recoveries with use of the cartridges were excellent for most drugs in both urine and plasma samples. We can recommend the Sep-Pak C18 cartridges for isolation of butyrophenones because of simplicity and rapidity, and also wide-bore capillary GC because of high sensitivity and low decomposition of drugs during passage through the column.