鱼塘水中六氯苯水解产物的检测

<正> 六氯苯(hexachlorobenzene,HCB),也称多氯苯,是一种常见的除草剂。鱼类对六氯苯的毒性比较敏感,常见于鱼塘水中毒鱼案中。本文作者采用固相萃取技术(SPE),分离富集鱼塘水中六氯苯的代谢产物——五氯苯酚,选用GC/MS技术进行分析,检出鱼塘水中的五氯苯酚。使用SPE技术分析检材中的五氯苯酚,具有快速、方便、省溶剂等优点,是一种具有潜力的实用的检验方法。     

用五氟苄基溴对五氯酚进行衍生化的方法

目的五氟苄基溴(PFBBr)衍生化试剂对五氯酚进行衍生化研究。方法运用GC/MS、GC/ECD印证分析衍生化产物。结果改变了五氯酚的挥发性,提高检测灵敏度,在本文控制的实验条件下,五氯酚-PFBBr衍生物的检测限可达1pg。结论为检测微量五氯酚提供了一种有效手段。     

微流体分流器用于鱼塘水中灭扫利和五氯酚GC／MS分析

灭扫利通用名为甲氰菊酯，英文名Fenpropathrin，分子量349．43，分子式C22H23NO3。属于拟除虫菊酯类农药。五氯酚钠盐为无色针状结晶物，水溶液呈碱性，是灭生性触杀型除草剂，对人和家畜有一定毒性，但对鱼虾毒性更大，水中含0．1～0．2mg／L即可导致鱼虾死亡。灭扫利和五氯酚在市面上容易得到，致使鱼塘中投毒的案件时有发生。检案中常采用GC／MS技术进行检验，本文在检验中使用一种三路微流体分流器，可使方法更加简便。     

GC/MS和GC法定性定量分析可卡因

目的建立用于可卡因案件检验鉴定的GC和GC/MS定性、定量分析方法。方法通过选择和优化,建立GC、GC/MS法检验可卡因的最佳分析条件;用分别含0.6mg/ml地西泮为内标的0.10、0.20、0.40、0.60、0.80、1.00、1.20mg/ml可卡因标准品乙醇液,考察线性范围和方法检测限。结果分析方法线性方程:GC/FID,Y=1.055X-0.0021,R2=0.9999,GC/NPD,Y=0.556X-0.0016,R2=0.9996;可卡因检测限:GC/FID法10ng,GC/NPD法2ng;分别以所建GC/FID、GC/NPD分析方法和内标法对案件中缴获的可卡因毒品进行定量分析,结果为72%±2.3%,且两方法定量重现性良好。结论本文所建方法可以用于可卡因涉毒案件的检验鉴定。     

血中苯酚及甲酚的固相萃取-GC/MS分析

用固相萃取－GC／MS对人血中的酚和甲酚进行定性和定量分析。采用GDX403对分析物和邻氯酚（内标）进行固相萃取，并采集总离子流色谱。根据分析物在血中的浓度，通过总离子流色谱峰的质谱和保留时间或特征离子质量色谱峰保留时间进行定性分析。实验采用特征离子质量色谱进行定量分析，线性范围0．02～10μg／ml。本方法检测限为10ng／ml，CV％为2.11～4.20％，分析物和内标的萃取率为68．6～89．5％，血中添加测定回收率为97．8～104％。本法测定健康人血中苯酚含量为2．2±0．4μg／ml．     

固相微萃取（SPME）GC／MS、GC／MS／MS法检测环境水中的有机磷杀虫剂

目的　通过对固相微萃取 (SPME)条件的优化、筛选实验 ,建立环境水中有机磷杀虫剂的快速检验方法。方法　收集 17种有机磷杀虫剂 ,使用SPME并结合GC/MS、GC/MS/MS检验方法。结果　该方法简便、灵敏、迅速、可靠 ,样品利用率高 ,最低检测浓度为 0 .0 1～ 10 0 pg/ml,在痕量范围 0 .1～ 10ng/ml内线性回归好(相关系数r达 0 .99以上 )。结论　实际应用效果理想 ,有望成为公安、环保、检验检疫的农残及毒物分析中的一种快速有效的分析方法。     

氯氮平的GC／MS／MS检验

目的建立苯二氮卓类药物氯氮平的串联质谱检验方法,以排除干扰物质,提高灵敏度。方法用串联质谱方法分析。结果以基峰m/z243为母离子,碰撞诱导电压(CID)为0.8v,进行MS/MS分析。结论与GC/MS相比,GC/MS/MS方法选择性好、灵敏度最高,排除干扰性能强。     

SPME—GC／MS／MS法分析血中助燃剂残留物

目的探讨检验血中助燃剂残留物的分析方法。方法运用SPME(固相微萃取)技术,利用100μmPDMS萃取纤维,于室温条件下以顶空方式直接从血中萃取、浓缩挥发性碳氢化合物,用GC/MS/MS检测分析助燃剂。结果从检验的实际案例显示,可从0.1ml血中检出痕量的助燃剂。结论该方法操作时间短,检材用量少,分析结果较理想。     

尿中五氯酚和2.4-二氯-6-硝基苯酚气相色谱分析

目的建立利用气相色谱分析检测尿中五氯酚和2,4-二氯-6-硝基苯酚的方法。方法取空白尿液添加五氯酚和2.4-二氯-6-硝基苯酚标准品及内标2.4-二氯苯酚,经乙酸酐衍生化后,采用气相色谱法进行检测,并对提取方法、衍生化条件等进行考察。结果经气相色谱分析,尿中五氯酚和2.4-二氯-6-硝基苯酚可得到有效分离,无杂质干扰且峰形较好。在pH值为2条件下,以环己烷作为萃取溶剂为最佳萃取条件。衍生化优选条件为使用10灿乙酸酐并加入10μL无水吡啶,60℃反应30min。结论采用气相色谱法检测尿中五氯酚和2.4-二氯-6-硝基苯酚,方法简单、结果准确,可在实际办案中应用。     

中毒鱼体材料中五氯酚的检验

目的　研究五氯酚的检验方法并对一起五氯酚钠投毒案进行检验。方法　采用高效液相色谱法及气相色谱 质谱联用法对案件所涉及的各种检验材料 ,尤其是鱼体材料中的五氯酚进行检验 ,同时分析新建技术的特点。结果　运用所建方法检出检材中的五氯酚。结论　所建方法可进行五氯酚钠投毒案件的检验 ,且适用范围广。     

Stability study of the designer drugs "MDA, MDMA and MDEA" in water, serum, whole blood, and urine under various storage temperatures.

A controlled study was undertaken to determine the stability of the designer drugs MDA, MDMA and MDEA in pooled serum, whole blood, water and urine samples over a period of 21 weeks. The concentrations of the individual designer drugs in the various matrices were monitored over time, in the dark at various temperatures (-20, 4 or 20 degrees C), for a low (+/- 6 ng/ml for water, serum and whole blood and +/- 150 ng/ml for urine) and a high concentration level (+/- 550 ng/ml for water, serum and whole blood and +/- 2500 ng/ml for urine). Compound concentrations were measured using a validated HPLC assay with fluorescence detection. Our study demonstrated no significant loss of the designer drugs in water and urine at any of the investigated temperatures for 21 weeks. The same results were observed in serum for up to 17 weeks, and up to 5 weeks in whole blood. After that time, the compounds could no longer be analyzed due to matrix degradation, especially in the low concentration samples that were stored at room temperature. This study demonstrates that the designer drugs, MDA, MDMA and MDEA are stable when stored at -20 degrees C for 21 weeks, even in haemolysed whole blood.     

Extraction of diquat with 1-butanol from biological materials

Diquat can be extracted with 1-butanol from high pH solution in the presence of several moderate reductants. The red colored reduced compound of diquat in water turns to a purple compound in 1-butanol. The absorption of the purple compound is 0.105 at 383 nm and 0.119 at 520 nm in 1 microgram diquat/ml 1-butanol. The latter value is a little higher than that of the red compound at 495 nm in water. The purple compound is much more stable than the red compound in water. More than 80% of 10 ppm diquat added can be extracted from serum, blood, tissues, urine and some drinks. The extraction with 1-butanol is useful for concentration of diquat contained in large volume. The lower limit of detection is 0.1 microgram/ml 1-butanol. Paraquat is insoluble in 1-butanol under the same condition. Therefore, this method is applicable for the determination of diquat when paraquat is also contained in the solution.     

Plasmatic levels of atrial natriuretic peptide (ANP) in drowning. A pilot study

Bodies found in water may cause problems for forensic pathologists who have to differentiate drowning from postmortem immersion or fresh from salt water drowning. The exact physiopathology of drowning is still controversial and complementary tests can not exactly establish the exact cause of death if macroscopic findings at autopsy are not conclusive. We have employed atrial natriuretic peptide (ANP) as a marker in an experimental series of fresh and salt water drowning, comparing their results with a non-drowned control series. There are differences between the plasma basal levels of the control series (79 pg/ml) and the levels in animals drowned in fresh water (358 pg/ml, P less than 0.001) and between control and rabbits drowned in salt water (190 pg/ml, P less than 0.001). According to these values, there are also differences between fresh and salt water drowned animals (P less than 0.001). We propose this peptide as a new marker in cases of drowning, with the ability to differentiate drowning from postmortem immersion and fresh from salt water drowning.     

血尿肝中毒鼠强硅藻土提取GC／NPD检测法

目的建立硅藻土提取气相色谱测定血、尿、肝中毒鼠强的方法。方法原尿液、血液用水稀释、肝匀浆用6％高氯酸沉淀蛋白的上清液倒入硅藻土小柱中，血和尿用苯洗脱，肝用三氯甲烷洗脱，挥干洗脱液，用甲醇定容至0．1ml。结果血提取率98．4％，尿提取率95．6%，肝提取率98．1％。相对标准偏差低于3．2％，检出限低于20ng／ml（g）。结论该法简便、快速，提取率高，适合作为常规毒物分析方法。     

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.     

Headspace solid phase microextraction for the gas chromatographic analysis of methyl-parathion in post-mortem human samples. Application in a suicide case by intravenous injection

A simple and rapid procedure for the determination of methyl-parathion (m-p) in post-mortem biological samples was developed using headspace solid phase microextraction (SPME) and gas chromatography (GC) with nitrogen-phosphorous detection (NPD). Methyl-parathion was extracted on 85 microm polyacrylate SPME fiber. Salt addition, extraction temperature, and extraction time were optimized to enhance the sensitivity of the method. The linearity (y = 0.0473x - 0.0113, R2 = 0.9992) and the dynamic range (0.1-40 microg/ml) were found very satisfactory. The recoveries of methyl-parathion were found to be 46% in spiked human whole blood, 53% in spiked homogenized liver tissue, and 54% in spiked homogenized kidney tissue compared with samples prepared in water. The coefficients of variations for 2, 4, and 20 microg/ml of methyl-parathion in blood ranged from 0.9 to 5.1%, whereas the detection limit of the method was satisfactory (1 ng/ml in aqueous samples, 50 ng/ml in whole blood). The developed procedure was applied to post-mortem biological samples from a 21-year-old woman fatally poisoned (suicide) by intravenous injection of methyl-parathion. The intact insecticide was found in the post-mortem blood at a concentration of 24 microg/ml. No methyl-parathion was detected in the liver, kidneys, and gastric contents.     

尿中异丙嗪及其代谢物含量硅藻土萃取紫外导数光谱测定法

目的建立尿中异丙嗪原体及其代谢物异丙嗪亚砜的提取测定方法。方法取尿直接倒入硅藻土柱中，用二氯甲烷洗脱，收集洗脱液50℃水浴挥干。剩余物用3．0ml 0．05mol／L硫酸溶解。加入锌粉沸水浴加热，放冷，测定二阶导数光谱。结果异丙嗪亚砜和异丙嗪萃取率均达90％以上，线性范围0．5～5．0μg／ml。结论该方法操作简便，提取率高，重现性好，结果可靠。     

Tissue distribution of nitrazepam and 7-aminonitrazepam in a case of nitrazepam intoxication

We report a case of nitrazepam poisoning in which the distribution of nitrazepam and 7-aminonitrazepam was determined in body fluids and tissues. A 52-year-old woman was found dead in a shallow ditch (approximately 5 cm in depth), in the winter. Ambient temperature was 2-8 degrees C. The postmortem interval was estimated to be approximately 1 day and no putrefaction was observed. The cause of death was thought to be drowning due to nitrazepam overdose and cold exposure. Blood concentrations of nitrazepam and 7-aminonitrazepam were very site dependent (0.400-0.973 microg/ml and 0.418-1.82 microg/ml). In addition, the concentration of the same analytes in the bile were 4.08 and 1.67 microg/ml, respectively, and in the urine: 0.580 and 1.09 microg/ml, respectively. A high accumulation of both substances was observed in various types of brain tissue (2.17-6.22 microg/g and 2.49-5.11 microg/g). Only small amounts of nitrazepam and 7-aminonitrazepam were detected in the liver (0.059 and 0.113 microg/g, respectively). Large differences in the observed concentrations of nitrazepam and 7-aminonitrazepam among arterial and venous blood samples were thought to be mainly due to dilution of arterial blood by water entering the circulation through lungs at the time of death. Bacterial metabolism of nitrazepam may also have contributed to the observed differences.     

An analytical method for the rapid screening of organophosphate pesticides in human biological samples and foodstuffs

Gas chromatography with nitrogen/phosphorus sensitive detection (GC/PND) and electron impact mass spectrometry (GC/MS) with selected ion monitoring provides a simple, rapid and sensitive method for the determination of organophosphate pesticides (OPs). A selective single-step extraction of 23 different OPs in urine, blood, serum and food samples (baby food, soft drinks and instant soups suspected of contamination from a blackmailing scare) is described. The OPs were extracted with 1ml toluene (with and without addition of mevinphos as internal standard), using a 0.7ml aliquot of urine, blood or serum sample. Food samples (0.2g) were homogenised with water (0.5ml) before extraction. An amount of 1microl of the toluene phase (extraction supernatant) was analysed directly by GC/PND and GC/MS.The method was validated using spiked human serum. The OPs were mixed with serum containing 10mg/ml disodium ethane diamine tetraacetic acid disodium salt (EDTA disodium salt) and stored up to 10 days at 4 and -20 degrees C, respectively. The recovery rates of OPs in freshly spiked human plasma ranged between 50% (dimethoate) and 133% (dialifos). OPs in plasma proved to be stable at -20 degrees C. Their levels decreased only slightly after storage at 4 degrees C.     

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。