生物组织中甲胺磷及其异构体的串联质谱法分析

目的建立可用于生物体内甲胺磷及其异构体O,O二甲基氨基硫代磷酸酯检验的高灵敏度方法。方法应用串联质谱法(GCMS/MS),对生物样品中的甲胺磷及其异构体进行检验研究。结果选择质荷比为141的离子为母离子,击发电压为0.8V时,甲胺磷及其异构体二次电离碎片适中,质谱谱图清晰。50%甲胺磷乳油进样量为0.1ng时,甲胺磷及O,O二甲基氨基硫代磷酸酯峰的信噪比分别为436、773。经实验,甲胺磷检测限为20pg。结论所拟方法能有效提高甲胺磷的检测灵敏度。     

甲胺磷及其代谢产物检验的研究

本文利用ＧＣ／ＭＳ和ＧＣ／ＦＰＤ法测定了生物体内的甲胺磷（ＭＡＰ）及其代谢物Ｏ、Ｓ－二甲基磷酸酯（Ｏ、Ｓ－ＤＭＰ）．血中ＷＡＰ以乙、乙酸乙酯混合溶剂提取、以磷酸三丁酯为内标测定；尿液中Ｏ、Ｓ－二甲基磷酸酯（Ｏ、Ｓ－ＤＭＰ）以乙酸提取，以ＤＭＴＰ氘氢化合物为内标测定。ＭＡＰ最小检出量为１０ｎｇ／ｍｌ血，回收率为７５．１％，Ｏ、Ｓ－ＤＭＰ的最小检出量为２０ｎｇ／ｍｌ尿．     

GC-PFPD法测定血中的杀虫双

杀虫双(dimehypo),化学名称为2-N,N-二甲基-1,3-双硫代磺酸钠基丙烷(C5H11NO6S4Na2)属于沙蚕毒素类杀虫剂。近年来对杀虫双的检验主要有GC/MS[1]、GC/TCD[2]等方法。用GC/PFPD进行检验的报道较少。通过对仪器条件和提取条件进行优化,建立了一种快速准确的分析方法。2004年11月11日,建德市某村黄某死于家中。为查明事实,建德市公安局送来死者心血要求毒物检验。运用建立的方法对死者的血液进行分析,在血液中检出杀虫双成份,谱图见图1。所以激发态硫分子(S*)的生成是至关重要的,而S*易形成于冷的富氢火焰[4]。通过设定检测器的温度…     

GC／MS法检验杀扑磷

杀扑磷(methidathion),又名甲噻硫磷,灭达松,商品名称:速扑杀(Supracide),化学名称:5-2,3一二氢-5-甲氧基-2-氧代-1,3,4-硫二氮卓()-3基甲基O,O-二甲基二硫代磷酸酯,分子式:C6H11N2O4PS3,分子量:302,结构式见图1。理化性质:纯品为无色结晶,20℃时比重1.495,熔点39℃～40℃,蒸气压186.6×10-6Pa,20℃时溶解度水中250mg/L,丙酮中690g/L,乙醇中260g/L,环已酮中850g/L,二甲苯中600g/L。制剂由有效成分和稳定剂、乳化剂、溶剂及染料组成,外观为深蓝色液体,比重1.04～1.08,闪点24℃～28℃。据中国农药毒性分级标准,杀扑磷是一种广谱、高毒的…     

浮游生物16S rDNA检测在大鼠溺死鉴定中的价值

目的建立浮游生物16S rDNA PCR检脸法应用于溺死的鉴定。方法将15只SD大鼠随机分为溺死组、死后抛尸组和正常对照组,死后分别取脑、肝、肾和肺等脏器,提取DNA.用特异性引物扩增浮游生物16S rDNA第三和第四可变区特异片段。结果溺死组5例,肺全部检出(100%)浮游生物16S rDNA;肝、肾分别检出4例(80%);脑检出3例(75%)。死后抛尸组仅1例在肺中检出浮游生物(20%)。正常对照组均未检出。苗论浮游生物16S rDNA PCR检验法可用于溺死的鉴定。     

超高效液相色谱-质谱法测定人全血中甲胺磷、乙酰甲胺磷含量

目的应用超高效液相色谱-质谱法(UPLC-MS/MS)对人全血中甲胺磷、乙酰甲胺磷进行定量测定。方法采用去离子水直接稀释人全血,提取血中的甲胺磷及乙酰甲胺磷,以甲醇-水(含0.1%甲酸)为流动相梯度洗脱,正离子化多反应监测(MRM)模式测定。结果甲胺磷、乙酰甲胺磷的回收率均高于87%。在选定条件下全血中甲胺磷、乙酰甲胺磷的线性范围为2～200ng/ml,最小定量限为2ng/ml。结论将全血样品进行直接稀释并应用液相色谱-质谱法进行检测可作为甲胺磷及乙酰甲胺磷中毒的快速检测方法。     

硫化氢中毒者血中硫化氢的检测及特征鉴别

目的探讨硫化氢(H2S)中毒者血中H2S的检测及特征鉴别;方法取新鲜空白血液和5℃下保存1月、1年的血液各2m L,经微波低火加热1min后,吸取顶空气体100μL进行GC/PFPD-S、GC/MS检测;取相同样本进行酸化处理后进行检测;取疑似为H2S中毒者血液直接加热后进行检测。结果新鲜血液和5℃下保存1月、1年的血液均可检出H2S成分,但保存1个月以上的血液可同时检出二硫化碳(CS2)成分;酸化处理后的血液,H2S和CS2成分检出的含量明显比未加酸化的血液高;中毒者血液中除了检出H2S成分外,还检出甲硫醚成分。结论血液样本同时检出H2S和较大量的CS2时,不宜判定为H2S中毒,提示可能为腐败所致,而同时检出H2S和较大量的甲硫醚,则可做出H2S中毒的判断。     

硫化氢中毒案件中血液硫离子的测定CSCD

目的建立血液中硫离子的气相色谱-质谱(GC-MS)测定方法,并将其应用于实际案例。方法取血液0.2 mL,以1,3,5-三溴苯为内标,经五氟苄基溴衍生化后采用GC-MS分析。结果血液中的硫离子在0.2~40μg/mL质量浓度范围内线性良好,最低检出限为0.05μg/mL。健康人群、死后等不同来源的空白血液中硫离子质量浓度不高于0.05μg/mL。3例硫化氢中毒案件中,6名死者血液中均检出硫离子,质量浓度在1.02~3.13μg/mL。结论本研究建立了血液中硫离子测定方法,并成功应用于硫化氢中毒死亡案件。     

硫化氢中毒案件中血液硫离子的测定

目的建立血液中硫离子的气相色谱-质谱(GC-MS)测定方法,并将其应用于实际案例。方法取血液0.2 mL,以1,3,5-三溴苯为内标,经五氟苄基溴衍生化后采用GC-MS分析。结果血液中的硫离子在0.2~40μg/mL质量浓度范围内线性良好,最低检出限为0.05μg/mL。健康人群、死后等不同来源的空白血液中硫离子质量浓度不高于0.05μg/mL。3例硫化氢中毒案件中,6名死者血液中均检出硫离子,质量浓度在1.02~3.13μg/mL。结论本研究建立了血液中硫离子测定方法,并成功应用于硫化氢中毒死亡案件。     

新型毒品1-（3-三氟甲基苯基）哌嗪的检验

目的建立新型毒品1-（3-三氟甲基苯基）哌嗪的检验方法。方法通过选择和优化建立了1-（3-三氟甲基苯基）哌嗪类毒品的GC／MS、GC／TSD定性定量分析条件。结果以建立的分析方法,知查获的片剂中含有1-（3-三氟甲基苯基）哌嗪,其含量为51．13％,GC／TSD最低检出线是10ng／mL。结论本文所建方法可以用于1-（3-三氟甲基苯基）哌嗪涉毒检材的检验鉴定。     

The Measurement of Stable Carbon Isotope Ratios of Eight Methamidophos Samples

Between December 2007 and January 2008, people suffered from food poisoning in the Japanese prefectures of Chiba and Hyogo after eating frozen dumplings (gyoza) produced in China, which had very high concentrations (1490–19,290 ppm) of methamidophos (O,S‐dimethyl phosphoramidothioate). Thus, we measured the stable carbon isotope ratio of methamidophos using GC/C/IRMS to identify the source. We analyzed seven methamidophos reagents and one Chinese agricultural methamidophos chemical (MTD600) that contained many impurities. The δ¹³C values of the seven methamidophos reagents and MTD600 ranged from ?49.23‰ to ?31.90‰, with an average SD of 0.20‰, very high precision. This difference (17.33‰) was very large compared with that in previous reports and may be attributable to the material itself and the chemical processing of methamidophos. Criminals can easily obtain pesticides such as methamidophos; therefore, it is very important to identify the pesticide source and distribution route using stable isotopic science in the future.     

有机磷农药中毒的人体血液致死浓度探讨

对 4年间 6家医院所有门急诊有关敌敌畏、甲胺磷、乐果三种有机磷农药中毒病例进行了调查分析。运用气相色谱法对其血液中的浓度进行测定。采用 Bliss法,计算其死亡率和昏迷率的加权直线回归方程,并获得其经救治后血液半数致死浓度 LC50、半数致昏迷浓度 CC50。综合文献和临床实践,认为及时的救治对中毒病例的治疗转归有较大影响,其自然的血液半数致死浓度应在经救治的半数致死浓度 LC50和半数致昏述浓度之间。综合半数致死浓度和半数致昏迷浓度,计算其自然的半数致死浓度 LCe50值。     

Human Fatality Due to Thallium Poisoning: Autopsy,Microscopy, and Mass Spectrometry Assays,

Thallium has been responsible for many intoxications since its discovery; however, toxicological profiles for thallium in human fatalities have not been updated recently. Autopsy, microscopic investigations, and toxicological analyses were performed on a married couple who died from thallium sulfate intended homicidal poisoning. The distribution of thallium was established by inductively coupled plasma mass spectrometry with hair samples showing the highest thallium concentration. Electron microscopy revealed a dystrophic condition of hair with disorganized cuticle and atrophy of the hair bulb. Thallium interacts with cells at different levels, with prominent ultrastructural injuries in the mitochondria and endoplasmic reticulum, and high concentration of electron dense granules observed in the cytoplasm and mitochondria of several organs. Alopecia, toxic encephalopathy, and peripheral neuropathy were diagnosed in the victims and suggested to be crucial implications for thallium poisoning. The analytical procedures used in this case are of considerable forensic importance in the diagnosis of thallium poisoning.     

甲胺磷在家兔血保存标本中的分解动力学研究

研究甲胺磷中毒死的检血在保存中的甲胺磷分解动力学。甲胺磷中毒死的家兔血分别在室温（12～25℃）及冰箱（4℃）保存,并用气相色谱－火焰光度检测器测定不同时间的浓度。在室温及冰箱中,甲胺磷在家兔血保存标本中的分解初始很快,随时间延长,分解趋于缓。队分解曲线类似动力学静注二室模型。甲胺磷在室温保存组中的分解较冰箱中快。该研究为正确判断甲胺磷中毒的分析结果提供了参考依据。     

Development of Rapid and Economical Colorimetric Screening Method for p‐Phenylenediamine in Variety of Biological Matrices and its Application to Eleven Fatal Cases of p‐Phenylenediamine Poisoning

A rapid colorimetric method for detection of p‐phenylenediamine (PPD) in various biological samples is developed. The o‐cresol test for acetaminophen detection has been modified to detect PPD in blood, urine, gastric contents, and liver. After precipitating protein with trichloroacetic acid solution (2 mL, 10% w/v), biological specimens were required to convert PPD metabolites to PPD by acid hydrolysis. Finally, o‐cresol solution (1 mL, 1% w/v), hydrogen peroxide (200 μL, 3%v/v), and concentrated ammonium hydroxide (0.5 mL) were added in the biological samples. The presence of PPD was indicated by formation of violet color which was turned to bluish green color within 10–15 min. The limit of detection was found to be 2 mg/L in blood, urine, and gastric contents and 2 mg/Kg in liver. This method is also free from any potential interference by p‐aminophenol, acetaminophen, and other amine drugs under test conditions. This method was successfully employed to thirteen fatal cases of PPD poisoning.     

Situations of poisoning and analytical toxicology in Japan

Unprecedented poisoning terrorism by use of sarin took place in Japan in 1994 and 1995. On July 25, 1998, a curry poisoning incident in Wakayama occurred resulting in the death of four people and injury of 63 people. Since then, more than 30 imitative poisoning cases have been reported by mass communication within 1 year. In this brief review, we present some details of a series of poisoning cases and measures taken by the Japanese Government and non-government groups. In addition some research projects on analytical toxicology being conducted in our laboratories are also introduced; gas chromatography (GC) with cryogenic oven trapping for volatile organic compounds, and GC/surface ionization organic mass spectrometry for tertiary amino compounds are described especially as new techniques for biological samples.     

甲胺磷在犬体内的死后分布

目的建立甲胺磷的犬灌胃染毒致死模型,观察甲胺磷在犬体内的死后分布规律。方法犬经8倍LD50（7.4mg/kg）剂量甲胺磷灌胃后,观察其中毒症状,死亡后即刻解剖,分别取心、肝、脾、肺、肾、脑、右上肢肌、右下肢肌、胸肌、胃组织、心血、胆汁、玻璃体液和尿液,GC/MS和GC法检测其中甲胺磷含量。结果犬8倍LD50甲胺磷灌胃染毒后20min内出现中毒症状（,53.3±14.1）min死亡。各组织脏器及体液中甲胺磷含量由高到低分别为胃（99.84±0.87）μg/g、脾（46.87±28.67）μg/g、肝（43.82±22.74）μg/g、肾（43.79±29.04）μg/g、心血（35.36±13.98）μg/mL、肺（35.25±18.59）μg/g、尿34.81μg/mL、胸肌（19.23±17.18）μg/g、右上肢（16.92±8.98）μg/g、心（15.09±6.11）μg/g、右下肢（12.83±7.63）μg/g、脑（10.91±4.13）μg/g、胆汁（6.75±1.45）μg/mL、玻璃体液（6.22±4.97）μg/mL。结论甲胺磷在犬体内死后分布不均,胃、脾、肝、肾、心血、肺、尿检材中含量较高,可作为疑似甲胺磷中毒毒物分析的检材。     

Nitrous Oxide Determination in Postmortem Biological Samples: A Case of Serial Fatal Poisoning in a Public Hospital*

Abstract: In a public hospital, eight cases of fatal poisoning by nitrous oxide (N₂O) occurred under oxygen administration, due to an erroneous swapping of the lines in the gas system. The aim of the study was to clarify the factors involved in asphyxia by characterizing gases from different lines and measuring N₂O concentrations in postmortem biological samples from bodies exhumed. Analyses carried out on the gas system confirmed the erroneous substitution of O₂ line with N₂O and air line with O₂. Consequently, high N₂O amounts were revealed in several tissues and gaseous biological samples. All specimens were analyzed by headspace gas chromatography technique. A rigorous quantitative analysis was possible only in blood (11.29–2152.04 mg/L) and urine (95.11 mg/L) and in air samples from stomach and trachea (from 5.28 to 83.63 g/m³). This study demonstrates that N₂O can be detected in biological samples even 1 month after death.     

Spectrophotometric evaluation of postmortem lividity

Under low ambient temperatures normally bluish postmortem lividity adopts a bright red or pink colour due to resaturation of haemoglobin with O2. The most important differential diagnosis in the presence of pink hypostasis is carbon monoxide poisoning. To answer the question if objective measuring methods allow differentiation of hypostasis with regard to cold exposition or carbon monoxide poisoning, spectrophotometric measurements were performed and the colorimetric measures as well as the spectral reflectance curves of the postmortem lividity were determined. The colorimetric measures CIE-L*a*b* showed similar values for all bright red livores mortis; differentiation between CO intoxication and cold exposition was not possible. Reflectance curves of pink hypostasis after cold storage showed the typical pattern of O2-rich blood with reflectance minima at wavelengths 541 nm and 576 nm and a reflectance maximum at 560 nm. Pink hypostasis because of carbon monoxide poisoning showed a shift of the reflectance maximum toward 555 nm and a flattened curve in all cases with COHb concentrations exceeding 52%, whereas these changes were not regularly observed with lower COHb levels.