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1.
目的研究2′-氯地西泮及其代谢物(地洛西泮、氯甲西泮、劳拉西泮)在大鼠体内分布及代谢规律,为2′-氯地西泮相关案件的检验提供实验数据。方法40只SD大鼠随机分为4组,禁食12h,按2.625mg/kg 2′-氯地西泮灌胃给药,第一组给药后不同时间点经大鼠尾静脉采血,第二组为采血空白对照组,第三组给药30min后处死,取心、肝、肺、肾、脑、睾丸,经乙酸乙酯液液萃取后用高效液相色谱-三重四极杆质谱检测2′-氯地西泮及代谢物含量,第四组为分布空白对照组。结果2′-氯地西泮进入体内后,迅速代谢分布,在20min内达到血液最高浓度。2′-氯地西泮及代谢物在各器官中的分布特点为:肝>脑>心脏>肾>睾丸>肺。结论经灌胃2′-氯地西泮进入大鼠体内后,监测2′-氯地西泮及其代谢物在大鼠体内的分布及降解规律可以为2′-氯地西泮相关案件的检验鉴定提供参考依据。  相似文献   

2.
目的观察地西泮及其主要代谢物去甲地西泮在大鼠体内的死后再分布特点。方法大鼠24只,随机分成8组,以安定90 mg/kg灌胃,2 h后脱颈椎处死,左侧卧位,分别置于室温(10℃)条件下,于死后不同时间(0h、2h、4h、8h、12h、24h、48h、96h)取心、肝、脾、肺、肾、大脑、肌肉,固相萃取、高效液相色谱法检测其中地西泮及其主要代谢物去甲地西泮的含量。结果地西泮及其主要代谢物去甲地西泮在染毒处死大鼠内各时间点、各脏器都有分布并呈现出一定的规律性。结论地西泮及其主要代谢物去甲地西泮在染毒处死大鼠内可发生死后再分布。  相似文献   

3.
目的推测氯硝安定在生物体内的主要代谢方式,检测其代谢产物。方法取5只Wistar大鼠,连续3d给每只大鼠灌胃氯硝安定(剂量分别为1、2、2mg),收集灌胃后24h内尿液;给3只大鼠各灌胃2mg氯硝安定,2h后处死,取血液和肝组织等检材;收集3名口服5mg氯硝安定的志愿者24h内尿液。分别对不同检材进行处理后,气相色谱/质谱联用(GC/MS)检测。结果在大鼠阳性尿液和志愿者阳性尿液中,均检出7-乙酰氨基氯硝安定和7-氨基氯硝基安定;在大鼠血液中,主要检出氯硝安定和7-氨基氯硝基安定;在大鼠肝组织中,主要检出7-乙酰氨基氯硝安定,还有少量7-氨基氯硝安定和氯硝安定。结论氯硝安定进入生物体后,其7位硝基被还原为氨基,氨基接着被乙酰化,形成7-氨基氯硝基安定和7-乙酰氨基氯硝安定代谢物,其中7-乙酰氨基氯硝安定为主要代谢物。  相似文献   

4.
目的研究甲卡西酮及其代谢物卡西酮、麻黄碱和伪麻黄碱的毒物代谢动力学特征。方法大鼠分别以甲卡西酮17.25mg/kg和34.5mg/kg经腹腔注射给药,给药后不同时间点经内眦静脉采血,血液中甲卡西酮及其代谢物卡西酮、麻黄碱和伪麻黄碱用HPLC-MS/MS定性、定量检测,DAS3.2.8药代动力学软件拟合动力学方程并计算毒物代谢动力学参数。结果甲卡西酮原体在大鼠血液中的代谢动力学过程符合一级吸收二室开放模型,达峰时间在给予剂量间无明显差异,剂量可以明显导致消除半衰期的延长。低剂量组代谢动力学方程为C=10515.971×e~(-0.024t)-10515.919×e~(-0.144t),高剂量组代谢动力学方程为C=12410.093×e~(-0.015t)-12409.465×e~(-0.169t)。甲卡西酮和卡西酮的检出时限为24h,麻黄碱和伪麻黄碱的检出时限均为2h。甲卡西酮和卡西酮在血液中的浓度比随注射时间的变化不受药物在体内的吸收过程影响,呈指数关系。结论本研究建立的甲卡西酮毒物代谢动力学方程和参数,代谢物的检出时限及与吸毒时间的变化规律可以为甲卡西酮吸毒鉴定的合理取样,原型和代谢物的检出,浓度关系推断吸毒时间以及法医学鉴定提供理论和实验依据。  相似文献   

5.
本文旨在建立生物样品中MDMB-4en-PINACA及其代谢标记物的高效液相色谱–三重四极杆串联质谱(HPLC-MS/MS)检测方法,探索MDMB-4en-PINACA及其水解代谢物(M1)和脱烷基代谢物(M2)在大鼠体内降解规律及动态分布规律。将5只SD大鼠分为5组,一组为空白对照组,另外四组灌胃给药MDMB-4en-PINACA后分别置于干净代谢笼中,分别收集1~15 d的尿液;将60只SD大鼠随机分为15组,一组作为空白对照组,其余14组通过灌胃给药MDMB-4en-PINACA,分别在不同时间点(15 min、30 min、45 min、1 h、1.5 h、2 h、3 h、4 h、5 h、6 h、7 h、8 h、10 h、12 h)处死,立即取血、尿及组织(心、肝、脾、肺、肾、脑、肌肉)。用HPLC-MS/MS检测血液、尿液、各组织中MDMB-4en-PINACA及代谢标记物M1和M2的质量浓度。MDMB-4en-PINACA进入大鼠体内后,迅速分布代谢,各组织和血液中均在15 min内达最高浓度,MDMB-4en-PINACA在体内的分布特点为:脑>脾>血>...  相似文献   

6.
《中国法医学杂志》2019,(3):213-217
目的研究丙泊酚及其代谢物(4-羟基丙泊酚和葡萄糖醛酸丙泊酚)在大鼠体内的动态分布规律,为丙泊酚麻醉相关的死亡案件法医学鉴定提供实验依据。方法 72只SD大鼠随机分为12组,禁食12h,经尾静脉注射12.6mg/kg丙泊酚,给药后不同时间点处死,取心、肝、肺、肾、脑、肌肉、睾丸、静脉血,检材分为两份,一份经环己烷及乙腈液液萃取法提取后,用气相色谱-串联质谱仪检测丙泊酚含量,并用高效液相色谱-串联质谱仪检测PG含量,另一份检材经乙腈液液提取后经MSTFA衍生化,用气相色谱-串联质谱仪检测4-羟基丙泊酚含量。结果丙泊酚经大鼠尾静脉进入体内,迅速向各组织器官内分布。由数据可看出丙泊酚在体内各组织消除迅速,并于30min后趋于平稳。丙泊酚在大鼠肝、肾、脑中分布较多,PG在大鼠中主要分布在肝脏,4-羟基丙泊酚在大鼠肝脏、肾脏、肺脏分布较多。结论经尾静脉注射丙泊酚后大鼠体内丙泊酚及其代谢物的动态分布规律可以为丙泊酚麻醉相关的死亡案件的法医学鉴定提供实验依据。  相似文献   

7.
目的采用固相萃取-高效液相色谱-串联质谱法(SPE-HPLC/MS/MS)检测人唾液中地西泮及其代谢物。方法采用固相萃取法(SPE)处理唾液,HPLC/MS/MS法检测,MRM记录方式,保留时间和定性离子对定性,内标法和标准曲线法定量。结果地西泮及其代谢物去甲地西泮、去甲羟基西泮、去甲羟基地西泮葡萄糖醛酸苷(OG)、羟基地西泮葡萄糖醛酸苷(TG)的检测限在0.01ng/m L~0.5ng/m L之间,线性范围0.1ng/m L或0.5ng/m L~100ng/m L,回收率为84.9%~106%。口服5mg地西泮后15d内唾液中可检出地西泮及去甲西泮,但检出时间有个体差异,但去甲羟基西泮、TG和OG则不能检出。结论 SPE-HPLC/MS/MS检测法可应用于人唾液中地西泮及其代谢物的检测。人口服常量地西泮后唾液中可检出地西泮和去甲西泮,且检测窗口期较宽,但存在个体差异。  相似文献   

8.
Liu L  Wei ZW  Jia J  Wang YJ 《法医学杂志》2010,26(5):357-360
目的研究氯胺酮及其代谢物去甲氯胺酮在家兔体内的毒物代谢动力学特征。方法家兔以氯胺酮0.15g/kg剂量灌胃,分别于给药前和给药后不同时间点收集血液和尿液,血清和尿液中氯胺酮及代谢物用GC-MS法定性、GC-NPD法定量检测,WinNorLin软件拟合房室模型并计算毒物代谢动力学参数。全程记录实验动物主要生命体征变化。结果氯胺酮和代谢物去甲氯胺酮在家兔体内的毒物代谢动力学过程均呈一级动力学特征,符合二室开放模型,氯胺酮毒物代谢动力学方程为ρt=121.760e-0.025t+0.980e-0.002t+4.579 e-0.021t,去甲氯胺酮毒物代谢动力学方程为ρt=640.919 e-0.03t+1.023 e-0.001t+9.784 e-0.031t。血液中氯胺酮质量浓度达峰时间为(40.950±12.098)min,血峰质量浓度为(9.015±1.344)μg/mL,消除半衰期为(430.370±28.436)min。给药后30~240 min内氯胺酮在血清和尿液中的质量浓度之间具有动态平衡的中度相关性。家兔给药后30min出现中毒症状,120min后渐恢复正常。结论建立的氯胺酮毒物代谢动力学方程和参数...  相似文献   

9.
液相色谱质谱联用测定乌头碱在大鼠体内代谢产物   总被引:6,自引:0,他引:6  
目的鉴定乌头碱在大鼠体内的主要代谢产物。方法灌胃给予雄性大鼠1.0mg/kg乌头碱后,收集24h尿液,固相萃取法提取,液相色谱-质谱法测定乌头碱及其代谢物。结果经与空白组对照发现给药后大鼠尿样中除乌头碱原体外还有4种代谢产物,并分别测得其准分子离子峰及其各级碎片离子。结论经与对照品比较及质谱断裂规律推断4个代谢产物分别为中乌头碱、16-O-去甲基乌头碱、16-O-去甲基中乌头碱、苯甲酰乌头碱。  相似文献   

10.
目的研究服用藿香正气水后,大鼠体内乙醇含量及药代动力学参数的变化。方法将大鼠随机分为3组,分别按3.0 m L/kg剂量灌胃白酒、低浓度中药酒和高浓度中药酒,于给药前(0 min)和给药后5 min、10 min、15 min、30 min、1 h、2 h、3 h、4 h、5 h、6 h、8 h断尾采血,用顶空-气相色谱法测定大鼠血液中的乙醇含量,用DAS 2.0软件计算乙醇的药代动力学参数,SPSS 17.0软件对药代动力学参数进行分析。结果高浓度中药酒组与白酒组最大血药浓度相比,差异有统计学意义(P0.05);其他药代动力学参数在三组间差异均无统计学意义(P0.05)。结论藿香正气水中中药成分对大鼠体内乙醇代谢和消除无明显影响。本研究对涉及饮用藿香正气水导致的交通案(事)件的定性判定和处理以及药物间的相互作用研究具有参考意义。  相似文献   

11.
目的研究氯氮平及其代谢物在人血液中的药代动力学和检出时限,为氯氮平中毒的法医学鉴定提供实验依据。方法 29名太原汉族人口服12.5mg氯氮平后不同时间采集肘静脉血,固相萃取法提取,超高效液相色谱-串联质谱仪分析,MRM(多反应离子检测)记录方式,保留时间和定性离子对定性,内标法和标准曲线法定量检测其中氯氮平、去甲氯氮平、氮氧氯氮平含量,3p97药代动力学软件拟合C-T数据,计算药代动力学参数。结果口服12.5mg氯氮平后,氯氮平、去甲氯氮平、氮氧氯氮平在血中动力学过程均符合一级吸收二室开放模型,达峰时间分别为2.96±1.32h、8.65±3.00h、9.31±26.38h,达峰浓度分别为34.68±9.32ng/mL、11.16±4.15ng/mL、9.62±13.88ng/mL,半衰期分别为17.02±23.63h、27.06±12.58h、41.27±29.75h,血中检出时限分别为81.72±26.19h、93.21±29.40、19.93±14.62h。结论口服氯氮平后氯氮平及其代谢物去甲氯氮平、氮氧氯氮平的药物动力学符合一级吸收二室开放模型,模型和参数可以为氯氮平的法医学鉴定提供实验依据。  相似文献   

12.
In this paper, a high performance liquid chromatographic method with fluorescence detection (HPLC-FL) for the determination of fenfluramine (Fen) and norfenfluramine (Norf) in human hair as biomarker metabolites of N-nitrosofenfluramine (N-Fen) is described. Washed and cut hair segments were extracted by ultrasonication for 1h at room temperature in methanol. The extract was evaporated and applied for derivatization with the fluorescent reagent 4-(4,5-diphenyl-1H-imidazol-2-yl)benzoyl chloride (DIB-Cl). An HPLC-FL analysis was performed using an ODS column with mobile phase composition of acetonitrile and water (65:35, v/v) and monitored at 430 nm (excitation 325 nm). The method was sensitive with detection limits of 36 and 16 pg/mg hair for Fen and Norf, respectively. The linearity was assessed in the range 0.036-144 ng/mg for Fen and 0.016-127 ng/mg for Norf with correlation coefficients larger than 0.999. The method was successfully used for the segmental determination of Fen and Norf in hair samples obtained from hospitalized patients diagnosed with hepatotoxicity and suspected to ingest N-Fen. Both Fen and Norf could be detected in these patients' hair samples in the ranges 43-1389 pg/mg for Fen and 18-680 pg/mg for Norf and the results showed that the patients might ingest N-Fen for a period of not less than 5 months. As well, the method was applied for the determination of Fen and Norf in rats that possess pigmented and non-pigmented hair after an intraperitoneal administration of Fen. Both compounds were determined in black as well as in white hair.  相似文献   

13.
2,5-Dimethoxy-4-bromoamphetamine (DOB) is one of the potent hallucinogenic phenylalkylamines, whose ingestion has already caused several deaths reported all over the world. However, there is unsufficient information on DOB properties based on controlled pharmacokinetic studies available. The aim of this study was to clarify the distribution profile of DOB and its phenolic metabolite 2-methoxy-5-hydroxy-4-bromoamphetamine (2M5H4BA) in blood and biological tissues of experimental rats. The rats were administered a 20 mg/kg dose of DOB·HCl by oral ingestion or subcutaneous injection. Plasma and brain, liver and lung tissues were collected at 0.5, 1, 2, 4, 8, 16, and 32 h after dosing (three animals per time point). The samples were prepared by a liquid–liquid extraction procedure and the extracts were assayed by GC–MS. After per oral application, DOB peak plasma level of 320 ng/mL was reached after one-hour post dosing as well as 2M5H4BA peak concentration of 203 ng/mL. A rapid phase of DOB absorption, 2M5H4BA formation and their tissue distribution during the first two hours after application were followed by a slow decrease rate of the elimination process until 32 h. After subcutaneous application, high plasma levels of the unchanged parent drug and relatively reduced formation of its metabolite 2M5H4BA were observed. DOB maximum plasma concentration of 1143 ng/mL was reached after one-hour post application, whereas its metabolite peak level after 8 h was 213 ng/mL. The concentration profiles of both compounds in plasma after per oral and subcutaneous administration revealed the existence of significant first pass effect after per oral administration that significantly affected DOB bioavailability. DOB tissue concentrations exceeded plasma and the highest values were found in the lungs, where drug accumulation occurred with prolonged retention till 32 h after subcutaneous dose. Although the plasma/tissue transfer was more effective for the lipophilic parent drug than for its hydroxylated metabolite 2M5H4BA, the metabolite tissue levels were significant. The hallucinogenic potential of 2M5H4BA appearing in brain remains unclear as nothing is known about its pharmacological activity at present.  相似文献   

14.
This study investigated the transfer of cocaine and its metabolites from plasma into the cerebrospinal fluid. The concentration of cocaine and its metabolites in plasma and cerebrospinal fluid was determined by radioimmunoassay because this method only, the sum of the drug and metabolites restored. In sheeps a sublethal cocaine hydrochloride dose (2,4 mg/kg b. wt.) was administered intraarterial daily for up to 8 days. In the first hours after administration the concentration of cocaine in cerebrospinal fluid was low. It is supposed that a barrier against the transport of cocaine from blood into cerebrospinal fluid exists. After intrathecal administration a delay of transport could from CSF to blood not be seen.  相似文献   

15.
Abstract:  Following its metabolism in the liver, morphine and its metabolites can be directly eliminated in bile. Then, they undergo the enterohepatic cycle (EHC) and mostly reappear in the circulation. We report a case showing the presence of morphine in bile (21.3 μg/mL) and hair (4.8 ng/mg) but not in blood, urine or the liver of an addict who survived in hospital for about 144 h (6 days). These data would indicate that the EHC does not play any role about 144 h after the last injection, and directly confirms that gall bladder is a storage depot for morphine. They constitute the first report of a demonstration of the effect of the EHC on morphine bioavailability in an addict, and could be considered as indication, without supporting circumstantial evidence, that the morphine level in bile is related to chronic opiate use.  相似文献   

16.
HPLC-MS/MS法检测血液中甲卡西酮及其代谢物   总被引:1,自引:1,他引:0  
目的 建立同时检测血液中新精神活性物质甲卡西酮及其代谢物卡西酮、麻黄碱和伪麻黄碱含量的高效液相色谱-串联质谱方法 ,验证甲卡西酮在大鼠体内的代谢物.方法 血液样品中加入内标物甲卡西酮-D3,经甲醇提取后采用InfinityLab Poroshell 120 Chiral-V型色谱柱分离,以甲醇和乙腈混合流动相恒比洗脱,...  相似文献   

17.
目的 应用代谢组学技术研究腹腔注射甲卡西酮大鼠血浆代谢谱的变化,筛选出可用于甲卡西酮吸毒法医学鉴定的入体生物标志物.方法 SD大鼠随机分成低剂量甲卡西酮组(腹腔注射甲卡西酮溶液3mg/kg)、中剂量甲卡西酮组(腹腔注射甲卡西酮溶液12mg/kg)和对照组(腹腔注射等量生理盐水),注射3min后收集大鼠眼眶血,应用超高效...  相似文献   

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