液相色谱-串联质谱同时分析尿液中的大麻酚类和△^9-四氢大麻酸

目的建立LC/MS-MS同时检测尿液中Δ9-四氢大麻酚(THC)、大麻酚(CBN)、大麻二酚(CBD)和大麻主要代谢物Δ9-四氢大麻酸(THC-COOH)的方法.方法屎液样本经碱水解,加入氘代四氢大麻酸Δ9-d9-THC-COOH)内标,经V(正己烷)V(乙酸乙酯)=91提取,吹干,以100μL乙腈定容,利用LC/MS-MS方法进行分析.结果THC-COOH、CBN、THC和CBD的最低检测出质量浓度为0.2、0.4、1.0和2.0ng/mL;在阳性尿液中检出THC-COOH成分,质量浓度为335.9 ng/mL.结论所建立的方法简便快速、灵敏度高、专属性强,可满足检测尿液中THC、CBN、CBD以及大麻主要代谢物THC-COOH的要求.     

反相HPLC法同时测定大麻植物中的三种有效成分

目的建立同时测定大麻植物中四氢大麻酚(tetrahydrocannabinol,THC)、大麻二酚(cannabidiol,CBD)和大麻酚(cannabinol,CBN)三种有效成分的高效液相色谱(HPLC)法。方法采用通用C_(18)色谱柱,以乙腈-磷酸盐缓冲液(0.015 mol/L KH_2PO_4)为流动相,流速为1.0 m L/min,检测波长为220 nm,同时收集波长190~400nm的紫外光谱图,并以此光谱图及保留时间作为定性依据。结果所建方法能良好地分离THC、CBD和CBN,三种成分在0.4~40μg/m L范围内线性关系良好(R~2≥0.999 3),回收率大于87%,最低检出限分别为1.8、2.0和1.3 ng,日内精密度与日间精密度均小于5%。结论反相HPLC法简便、快速、准确,适用于大麻植物中THC、CBD和CBN的定性定量检测。     

GC／MS同时分析头发中大麻酚类和△^9-四氢大麻酸

目的建立同时分析毛发中THC、CBN、CBD和大麻主要代谢物THC-COOH的方法.方法头发检材去污处理后,加入内标氯灭酸,经NaOH水解和正己烷:乙酸乙酯(9:1)提取,吹干后衍生化,利用GC/MS-SIM方法分析.结果THC、CBN和THC-COOH的最低检出限分别为0.01、0.05和0.01ng/mg.10例阳性头发中均检出THC成分,THC浓度范围为0J 1～8.84ng/mg,有3例未检出THC-COOH,检出者的量亦低于定量下限.结论同时分析头发中的大麻酚类和△9-四氢大麻酚是可行的,头发中THC-COOH浓度明显都低于THC浓度.     

GC-MS/MS法测定人头发中的大麻酚类及其代谢物

目的 建立同时检测头发中△9-四氢大麻酚(THC)、大麻酚(CBN)、大麻二酚(CBD)和△9-四氢大麻酸(THC-COOH)的分析方法.方法头发样品加入氘代内标△9-四氢大麻酸(THC-COOH-d3),经碱水解后,以混合溶剂[V(正己烷)∶V(乙酸乙酯=9∶1]进行提取,吹干,残留物经双(三甲基硅烷基)三氟乙酰胺(BSTFA)衍生化,用GC-MS/MS方法进行分析.结果 头发中THC-COOH、THC、CBN和CBD的最低检出限分别为4、4、10和20 pg· mg-1,各化合物在0.04～5ng· mg-1呈良好的线性关系(r＞0.999),方法精密度、准确度均符合要求.结论本方法选择性强、灵敏度高,适用于头发中CBD、CBN、THC及其代谢物THC-COOH的分析,并成功应用于实际案例中.     

胶体金标记苯丙胺单克隆抗体免疫试剂盒研究

目的建立一种准确、快速、简便的检测尿液中苯丙胺(AMP)的胶体金免疫层析技术。方法采用柠檬酸三钠还原法制备胶体金颗粒,标记抗AMP单抗,将AMP—BSA抗原固相于硝酸纤维素膜上,制备胶体金免疫层析测试条。通过尿液、血液和唾液中的可能存在的苯丙胺成分与测试条上的苯丙胺-BSA完全抗原竞争结合有限的单抗结合位点,来判定检测结果。结果用ICT法和GC/MS检测217份尿样,本法检测阈值为1000ng/mL,特异性为99.17%,准确性为99.54%。结论ICT法检测尿液中的AMP特异性强,灵敏度高、简便快速、无需特殊仪器设备,具有广泛应用价值。     

大麻毒品的检验方法

本文用改良的薄层色谱和气相色谱法对走私贩毒的大麻毒品进行定性、定量分析,两种方法均能完全分离出大麻的3种主要成分:大麻酚(CBN)、四氢大麻酚(THC)及大麻二酚(CBD),灵敏度:薄层法0.15μg,气相色谱法10ng     

新疆麻烟活性成分气相色谱法测定

本文报告了气相色谱法测定新疆麻烟中活性成分Δ~9-四氢大麻酚(Δ~9-THC)、大麻二酚(CBD)、大麻酚(CBN)含量的方法,以24烷为内标,采用3％OV-17玻璃柱。实验所得平均回收率为98.0～103.0％。CV％不大于5％。方法简便、准确。     

大麻对正常小鼠脾淋巴细胞的免疫损伤作用

目的考察大麻对正常小鼠脾细胞的免疫损伤作用。方法采用小鼠脾细胞体外培养法,在细胞培养液中加入100～200μg/mL大麻提取物,连续培养。检测小鼠脾细胞的ConA增殖反应、脾细胞凋亡现象和脾细胞培养上清中IL-2活性;观察脾细胞超微结构的改变和脾细胞内caspase-3活性。结果与正常对照组相比较,大麻染毒组小鼠脾细胞的ConA增殖反应和培养上清中IL-2的活性均显著降低,经Hoechst 33258染色可见大量凋亡的脾细胞;琼脂糖凝胶电泳显示为DNA梯形谱带;透射电镜观察发现100μg/mL大麻组小鼠脾细胞超微结构改变程度随接触时间延长而显著;荧光定量法检测显示100μg/mL大麻染毒组脾细胞内caspase-3活性显著升高。结论大麻提取物能引起小鼠脾淋巴细胞凋亡。     

尿液中大麻及合成大麻素MDMB-4en-PINACA、ADB-BUTINACA酶水解条件研究

目的 合成大麻素类(synthetic cannabinoids,SCs)新精神活性物质进入人体后被广泛代谢,在尿液中通常很难检出合成大麻素原体,大多数以代谢物及代谢物葡糖醛酸结合形式存在,需在尿液前处理方法中断裂葡糖醛苷酸链,将葡萄糖醛酸结合物还原。本研究针对尿液中SCs的酶水解条件进行优化。方法 采用液相色谱串联质谱(LC-MS/MS)分析方法,对阳性尿液中11-去甲基-9-羧基-THC(Δ⁹-THC-COOH)的酶水解条件进行优化,并与碱消解方法进行比较;同时对MDMB-4en-PINACA、ADB-BUTINACA阳性尿液的酶水解条件进行了优化研究。结果 在55℃条件下,添加3μL的β-d-葡萄糖醛苷酸酶溶液(>100 000 units/mL)酶解30min可充分水解Δ⁹-THC-COOH葡萄糖醛酸结合物,在75℃条件下,添加3μL的β-d-葡萄糖醛苷酸酶溶液(>100000units/mL)孵育30min可充分水解MDMB-4en-PINACAM和ADB-BUTINACAM葡萄糖醛酸结合物。结论该研究可为检测尿液中合成...     

云南大麻DNA的提取及检测初步研究

目的探讨云南大麻DNA的提取及检测方法。方法运用改进的SDS微量法提取大麻总DNA,对所得DNA进行PCR检测。结果用所筛选到的大麻引物检测了云南大麻的DNA遗传标记特征,图谱清晰,结果稳定。结论本方法能有效提取并检测大麻DNA,为实现大麻的品种鉴定、遗传多态性研究及来源追踪提供有价值的科学依据。     

氯胺酮胶体金标记单克隆抗体免疫层析检测板的研制

目的建立一种简便快速检测氯胺酮的方法。方法将20nm胶体金颗粒标记的抗氯胺酮单克隆抗体,均匀浸在吸水玻璃纤维上,用点膜机将氯胺酮-BSA和纯化后的羊抗鼠IgG多克隆抗体在硝酸纤维薄膜分别划1mm宽的检测线(T线)和质控线(C线),然后依次将吸水玻璃纤维、硝酸纤维薄膜和吸水滤纸粘贴于白色的塑料片上,切成0.5 cm×10 cm大小,制成氯胺酮胶体金标记单克隆抗体免疫层析检测条,并组装成检测板,并检测其特异性和灵敏度。结果氯胺酮胶体金标记单克隆抗体免疫层析检测板在对46种药(毒)物的测试中,仅识别氯胺酮及其主要代谢产物,其准确性为97.6%,检测氯胺酮的阈值为1000ng/m l。结论氯胺酮胶体金标记单克隆抗体免疫层析检测板在5m in内可检出样品中的氯胺酮及其代谢物。     

Validated method for the simultaneous determination of Delta9-THC and Delta9-THC-COOH in oral fluid, urine and whole blood using solid-phase extraction and liquid chromatography-mass spectrometry with electrospray ionization

A fully validated, sensitive and specific method for the extraction and quantification of Delta(9)-tetrahydrocannabinol (THC) and 11-nor-9-carboxy-Delta(9)-THC (THC-COOH) and for the detection of 11-hydroxy-Delta(9)-THC (11-OH THC) in oral fluid, urine and whole blood is presented. Solid-phase extraction and liquid chromatography-mass spectrometry (LC-MS) technique were used, with electrospray ionization. Three ions were monitored for THC and THC-COOH and two for 11-OH THC. The compounds were quantified by selected ion recording of m/z 315.31, 329.18 and 343.16 for THC, 11-OH THC and THC-COOH, respectively, and m/z 318.27 and 346.26 for the deuterated internal standards, THC-d(3) and THC-COOH-d(3), respectively. The method proved to be precise for THC and THC-COOH both in terms of intra-day and inter-day analysis, with intra-day coefficients of variation (CV) less than 6.3, 6.6 and 6.5% for THC in saliva, urine and blood, respectively, and 6.8 and 7.7% for THC-COOH in urine and blood, respectively. Day-to-day CVs were less than 3.5, 4.9 and 11.3% for THC in saliva, urine and blood, respectively, and 6.2 and 6.4% for THC-COOH in urine and blood, respectively. Limits of detection (LOD) were 2 ng/mL for THC in oral fluid and 0.5 ng/mL for THC and THC-COOH and 20 ng/mL for 11-OH THC, in urine and blood. Calibration curves showed a linear relationship for THC and THC-COOH in all samples (r(2)>0.999) within the range investigated. The procedure presented here has high specificity, selectivity and sensitivity. It can be regarded as an alternative method to GC-MS for the confirmation of positive immunoassay test results, and can be used as a suitable analytical tool for the quantification of THC and THC-COOH in oral fluid, urine and/or blood samples.     

检测丁丙诺啡的胶体金标记单克隆抗体免疫试剂盒研制

目的采用免疫竞争法原理,建立一种简便快速检测丁丙诺啡的方法。方法将20nm胶体金颗粒标记的抗丁丙诺啡单克隆抗体,均匀浸在吸水玻璃纤维上,将丁丙诺啡-BSA和纯化后的羊抗鼠IgG多克隆抗体在硝酸纤维薄膜分别划1mm宽的检测线(T线)和质控线(C线),制成丁丙诺啡胶体金标记单克隆抗体免疫层析检测条,并组装成检测板。结果以GC/MS为标准对照,100例样品检测结果显示,本检测板的准确率为99.0%。丁丙诺啡胶体金标记单克隆抗体免疫层析检测板在对45种药(毒)物的测试中,仅识别丁丙诺啡及其主要代谢产物。结论丁丙诺啡胶体金标记单克隆抗体免疫层析检测板在5min内可检出样品中的丁丙诺啡及其代谢物,检测丁丙诺啡的阈值为100ng/mL。     

检验人精浆特异蛋白P30免疫胶体金试剂条的研制

目的制备用于检验人精浆特异蛋白P30-主要是来自法医学案件的免疫胶体金层析试剂条.方法选取针对不同抗原决定簇的抗P30单克隆抗体细胞株,并制备其小鼠腹水,分离纯化单克隆抗体.制备胶体金并以纯化抗体包被,制成免疫胶体金,以免疫胶体金浸泡玻璃纤维.选取适宜的硝酸纤维素膜并于其上不同位置以未金标的另一株P30单克隆抗体和羊抗鼠IgG包被.搭建试剂条并检测其灵敏度和特异性.结果所制成的试剂条灵敏度至少可达4ng/ml;对6人份混合的人精液物质在稀释20万倍后仍出阳性结果,且无非特异性反应.结论检验人精浆特异蛋白P30的免疫胶体金试剂条可对嫌疑人精物质做出排查,有利于法医物证检验.     

可卡因及其代谢物苯甲酰爱康宁胶体金检测试剂盒的研制

目的根据胶体金免疫层析的原理,建立一种可以在现场快速检测可卡因及其代谢物苯甲酰爱康宁的方法。方法将胶体金标记的抗可卡因单克隆抗体均匀浸涂在玻璃纤维膜上,用点膜仪将可卡因的完全抗原以及羊抗鼠多抗在硝酸纤维素膜上划线,分别作为可卡因的检测区（T）和质控区（C）。并且对样品垫用0.2%Tween 20和0.5%PVA封闭处理。样本（尿样、唾液、血样等）中游离的可卡因及其代谢物同包被的完全抗原分别免疫竞争结合胶体金标记的抗可卡因单抗。肉眼观察试剂盒的质控区和检测区上有无紫红色带来判读结果。结果可卡因胶体金检测试剂盒对65种毒品、药物的特异性测试中仅识别可卡因及其代谢物。对人体尿样中的可卡因和苯甲酰爱康宁检测阈值均为300ng/mL。与GC/MS对照试验,其准确性分别为98.9%和98.6%。在常温下能稳定保存2年。结论该可卡因检测试剂盒在5min内可以检测出样本中的可卡因及其代谢物成分。     

Validated method for the simultaneous determination of Δ-THC and Δ-THC-COOH in oral fluid, urine and whole blood using solid-phase extraction and liquid chromatography–mass spectrometry with electrospray ionization

A fully validated, sensitive and specific method for the extraction and quantification of Δ⁹-tetrahydrocannabinol (THC) and 11-nor-9-carboxy-Δ⁹-THC (THC-COOH) and for the detection of 11-hydroxy-Δ⁹-THC (11-OH THC) in oral fluid, urine and whole blood is presented. Solid-phase extraction and liquid chromatography–mass spectrometry (LC–MS) technique were used, with electrospray ionization. Three ions were monitored for THC and THC-COOH and two for 11-OH THC. The compounds were quantified by selected ion recording of m/z 315.31, 329.18 and 343.16 for THC, 11-OH THC and THC-COOH, respectively, and m/z 318.27 and 346.26 for the deuterated internal standards, THC-d₃ and THC-COOH-d₃, respectively. The method proved to be precise for THC and THC-COOH both in terms of intra-day and inter-day analysis, with intra-day coefficients of variation (CV) less than 6.3, 6.6 and 6.5% for THC in saliva, urine and blood, respectively, and 6.8 and 7.7% for THC-COOH in urine and blood, respectively. Day-to-day CVs were less than 3.5, 4.9 and 11.3% for THC in saliva, urine and blood, respectively, and 6.2 and 6.4% for THC-COOH in urine and blood, respectively. Limits of detection (LOD) were 2 ng/mL for THC in oral fluid and 0.5 ng/mL for THC and THC-COOH and 20 ng/mL for 11-OH THC, in urine and blood. Calibration curves showed a linear relationship for THC and THC-COOH in all samples (r² > 0.999) within the range investigated.The procedure presented here has high specificity, selectivity and sensitivity. It can be regarded as an alternative method to GC–MS for the confirmation of positive immunoassay test results, and can be used as a suitable analytical tool for the quantification of THC and THC-COOH in oral fluid, urine and/or blood samples.     

A research note: the outcome of GC/MS/MS confirmation of hair assays on 93 cannabinoid (+) cases

This article reports the outcome of gas chromatography/tandem mass spectrometry confirmations for THC and carboxy-THC on 93 hair samples screened by RIA for cannabinoids. The samples were taken from probationers in Pinellas County, FL, who voluntarily provided the research staff with six hair and six urine specimens, collected at 1-month intervals. There were 40 samples that were RIA (+), urinalysis (−). Samples were selected which had cannabinoid (+) outcomes for hair, urine, or both. The THC and/or the carboxy-THC was (+) on confirmation. Of these 40 samples, 22 were (+) for both THC and carboxy-THC, 15 were (+) for THC but not carboxy-THC, and three were carboxy THC (+), but THC (−). Only one sample had a (+) RIA, but was (−) for both THC and carboxy-THC on confirmation. RIA detection of cannabinoids was confirmed in nearly all cases. Most cases that were RIA (−) but urine (+) were cannabinoid (+) when analyzed by GC/MS/MS.     

SMCY性别特异融合抗原的克隆表达及其抗体制备

目的利用蛋白检测的快速性优势,研究不同性别在SMCY抗原氨基酸序列的差异,筛选出特异性氨基酸序列,并克隆表达性别特异融合抗原,制备相应抗体,建立一种快速鉴别法医物证性别的方法。方法通过对人SMCY和SMCX进行序列分析,发现了三段差异片段,采用搭桥PCR方法获得差异片段全长基因,连接入p ET-28a载体进行原核表达,用Ni柱纯化后的性别特异融合抗原免疫制备多克隆抗体,用ELISA法和western blot检测SMCY多抗与抗原的反应特异性,制作胶体金试纸条检测样本。结果筛选出具有性别特异性的氨基酸序列,获得SMCY性别特异融合抗原,成功制备出多克隆抗体及胶体金试纸条。结论获得SMCY性别特异融合抗原具有很好的抗原活性,制备的多克隆抗体可以与抗原特异性地结合,用于性别鉴定。     

A screening method for urinary methamphetamine--latex agglutination inhibition reaction test

Methamphetamine in urine samples from abusers was detected by the latex agglutination inhibition reaction test with latex-antibody (Latex-Ab) and latex-methamphetamine (Latex-MA) reagents. Anti-methamphetamine antibody was produced in rabbits by immunization with bovine serum albumin (BSA)-methamphetamine conjugate. Latex particles were coated with antibodies or with rabbit serum albumin (RSA)-methamphetamine conjugate to obtain Latex-Ab and Latex-MA reagents, respectively. The results are read at 4-5 min after mixing the latex reagents. The sensitivity of this method for methamphetamine was 0.4 micrograms/ml urine. Methamphetamine analogs (methylephedrine, amphetamine, phentermine, methoxyphenamine, ephedrine, beta-phenylethylamine, OH-methamphetamine, OH-amphetamine, and OH-ephedrine) all cross-react in varying degrees, while glucosiurea and albuminurea give false positive results in the tests. Though attention must be paid to these effects this simple and rapid test is suitable for the mass screening of urine samples.