不同保存条件对血中CN-浓度的影响

目的研究在各种温度贮存条件下血液中CN-浓度与保存时间的关系。方法用氯胺T衍生GC/ECD分析。结果在室温下存放的阳性血,在30天～50天中,CN-浓度有所增加,以后浓度下降很快,80天后则检不出。在4℃及-20℃下贮存的血液CN-浓度,在一定的时间段中,有所增加,以后则逐渐下降,至8个月仍可检出CN-。结论不同条件下存放的血液CN-其浓度的变化是不同的。     

保存温度与时间对生物样品中氯胺酮稳定性的影响

目的研究不同温度和时间条件保存时生物样品中氯胺酮的稳定性。方法家兔以氯胺酮150mg/kg灌胃,30min后处死,取其血、肝、肾、脑,分别在室温（18～24℃）和冷冻（-20℃）条件下保存,并用气相色谱-质谱法定性分析、气相色谱-氮磷检测器法测定不同时间各样品中氯胺酮含量。结果血、肝、肾、脑冷冻保存至第30天氯胺酮含量均降低（P〈0.05）;室温条件下各样品中氯胺酮含量自第5天起均升高（P〈0.05）。结论生物样品在冷冻条件下保存时氯胺酮稳定性较好,怀疑氯胺酮中毒或死亡的检材应冷冻保存,尽快检测。     

氯胺酮在急性中毒大鼠体内的死后再分布研究

目的探索氯胺酮在大鼠体内的死后再分布变化规律及温度对再分布的影响。方法48只雄性SD大鼠随机分为2个实验组（室温组24只、冷藏组18只）和1个对照组（6只）,实验组大鼠以氯胺酮290mg／kg灌胃,45min后缺氧处死,分别置于室温（24℃）和冷藏（4℃）条件下,于死后不同时间（0、12、24、48h）取心血、外周血、肝、肺、肾、心肌、大脑,检测其中氯胺酮含量;对照组大鼠以生理盐水灌胃,各对应组织器官样品为空白对照。血和组织样品中加入内标物SKF。。后碱化,乙酸乙酯萃取,GC／MS全扫描定性,内标法、工作曲线法气相色谱定量分析。结果室温条件下,大鼠死后48h内随着死亡时间延长,心血、肺、肝中氯胺酮的浓度呈升高趋势（P〈0．05）,肾脏中氯胺酮的浓度先升高后下降（P〈0．05）,外周血、心肌和脑中氯胺酮的浓度无显著性变化（P〉0．05）。冷藏条件下,血液及组织中氯胺酮浓度变化无显著性差异（P〉0．05）,除心肌外,各样本浓度均低于相应时段室温条件保存的样本。结论氯胺酮在大鼠体内存在死后再分布现象。温度对大鼠死后血液及组织中氯胺酮浓度变化有较明显的影响。     

血液中乙醇保存稳定性研究

目的确定血液中乙醇最佳保存条件,探讨影响血液中乙醇含量稳定性的主要因素。方法对血液保存的温度(-20、4、20℃)、防腐剂(NaF、无防腐剂、Na2O2)、储存容器中空气所占比例(0%、25%、50%)和血醇质量浓度(0.2、0.8、2.0mg/mL)四个因素采用正交试验L9(34)方法分组,样本采用顶空气相色谱法进行测定,测定结果采用方差分析进行讨论。结果在20℃保存且不加入防腐剂的两组样本中血醇浓度变化明显,其余变化不明显。结论血液样本在4℃、储存容器中空气比例为50%和加防腐剂(NaF)的条件下保存,稳定性最佳;四个影响因素中温度为影响血液中乙醇含量稳定性的主要因素。     

国外论文文摘

杂合的精液样品中葡糖磷酸变位酶的酸性( )和碱性(-)等位基因的稳定性比较[英]/White,J.M.;Hong,M.M.//法庭科学学会志,-1993,33(2),-127 选择有杂合PGM型和有一个酸性( )与一个碱性(一)等位基因的精液样品,将样品等分,分别在37℃、室温、冷藏和-20℃冰冻下贮存其液体和棉布干斑痕。在37℃贮存的样品,液体在几天之内可对PGM分型,斑痕在几周内可分型;在室温贮存的样品,液体在1周内可分型;斑痕在2～3个月内可分型;冷藏的样品,液体在2个月内可分型;斑痕在5个多月内可分型;在-20℃冰冻下的样品,目前正在测试,6个月以后的液体样品     

探究尸体血样中乙醇、乙基葡萄糖醛酸苷和硫酸乙酯的产生

目的探索尸体血样保存过程中乙醇的产生情况及乙基葡萄糖醛酸苷(EtG)和硫酸乙酯(EtS)的产生可能。方法对照组为7例阳性静脉血,而实验组则为7例阴性尸体血。每例血样分成3份并保存在室温(18~22℃),4℃及-20℃等3种不同的条件下,在保存天数为0、2、3、5、7、9、11、13、15、17、19、21等时间点取样。使用顶空气相色谱法(HS-GC)检测乙醇,采用固相萃取提取EtG和EtS,使用高效液相色谱-三重四级杆质谱(LCMS/MS)法检测EtG和EtS。结果保存期间,对照组各血样中的乙醇、EtG和EtS浓度均呈下降趋势;实验组中1、2、4、5、6、7号血样的室温及4℃的样本在保存第2~3天时检出乙醇,而7号-20℃的样本在第6天检出乙醇。其中,6号室温血样的乙醇峰值浓度为64.27mg/100mL。各血样中均未检出EtG,EtS。结论室温及4℃保存的尸体血可产生乙醇且产生速度较快,反复冻融可导致-20℃保存的尸体血产生乙醇,乙醇峰值浓度可超过法定酒驾标准,但实验组血样中均无EtG和EtS产生。因此,尸体血中的EtG,EtS可以作为乙醇生前入体的特异性标志物,区分乙醇生前入体和腐败产生乙醇的依据。实际工作中,乙醇原体检测的酒精认定应注意血样保存和运输条件造成的影响。为了避免假阳性结果,涉及死亡的案件进行酒精认定时有必要辅以EtG和EtS的检测。     

不同温度下血样中毒鼠强的稳定性

目的探讨不同保存温度下血样中毒鼠强的稳定性。方法配制毒鼠强质量浓度为0.5μg/mL的血液样品,分别置于45℃、25℃和4℃环境中保存,在配制当天及存放3、12、18和39d用气相色谱-质谱联用法测定其质量浓度,运用SPSS统计软件对结果进行统计分析。结果45℃、25℃下血样存放3d毒鼠强质量浓度基本不变,存放4～12d毒鼠强质量浓度有明显下降,存放12d后毒鼠强质量浓度缓慢下降;4℃下血样存放12d毒鼠强质量浓度基本不变,存放13～18d毒鼠强质量浓度有明显下降,存放18d后毒鼠强样品质量浓度缓慢下降。结论血样中毒鼠强质量浓度在最初的3d内稳定,此后浓度下降。保存温度对血样中毒鼠强质量浓度有影响。     

自制海洛因标准品在常用有机溶剂中稳定性研究

目的 研发海洛因标准品及优化分析方法,以对云南缴获海洛因样本提纯制备成的自制海洛因对照品在常用有机溶剂中的稳定性进一步研究.方法 采用内标及GC、GC/MS方法,通过对提纯制备的海洛因在5种有机溶剂中冷藏保存后含量的变化,观察海洛因在常用有机溶剂中的稳定性.结果 乙醇、三氯甲烷及乙腈为溶剂的自制海洛因对照品储备液,保存30天时间范围内海洛因含量未发生明显变化;以丙酮作为溶剂的自制海洛因对照品储备液,在7至30天时间范围内,海洛因含量明显升高;以甲醇作为溶剂的自制海洛因对照品储备液,在0小时至30天时间范围内,海洛因含量一直呈明显的下降趋势.结论 乙醇、三氯甲烷及乙腈可以作为海洛因样品储备液溶剂使用,丙酮、甲醇不适合作为海洛因样品储备液溶剂使用.     

不同保存条件下呋喃丹及其代谢物在血液中的稳定性研究

目的研究呋喃丹及其代谢物呋喃酚在不同条件保存血液中的稳定性,为呋喃丹中毒案件的法医学鉴定提供实验依据。方法犬经口灌胃4LD50(13.5mg/kg)呋喃丹致死后,取血液分为五等份,分别为添加1%氟化钠(1%NaF)、添加2.5mg/m L枸橼酸钠(NC)、20℃、4℃和-20℃保存实验组。于保存当时(0d)、5d、7d、15d、40d、83d和150d取上述样品,多反应离子检测(MRM),气相色谱-质谱联用(GC-MS/MS)法检测其中呋喃丹及呋喃酚含量。结果血液中呋喃丹的含量随保存时间均呈下降趋势,7d显著下降(P0.05),之后下降缓慢。不同条件保存血液中呋喃酚的含量均呈先升高后下降趋势。枸橼酸钠和氟化钠可加快血液中呋喃丹的分解。结论呋喃丹及其代谢物呋喃酚在保存检材中均可发生分解,20℃保存分解较快,4℃和-20℃保存分解速度较慢,不适宜用枸橼酸钠或氟化钠作抗凝剂或防腐剂。在呋喃丹的相关案件的法医学鉴定中,生物检材应注意冷藏、冷冻保存,并尽快送检。     

毒品样品的稳定性研究

对毒品进行同一认定是禁毒工作的一个重要方面。关于毒品稳定性的研究,文献报道尚少,仅见毒品水溶液或在有机溶剂中的稳定性研究。本文研究了目前社会上最常见的海洛因、甲基苯丙胺及氯胺酮样品在固体状态下的稳定性,包括室温和冰箱两种存放条件,结果发现上述毒品的固体样品在室温和冰箱中存放1年其含量无明显变化。     

The effect of storage at various temperatures on blood alcohol concentration

There is a paucity of data available on the effect of storage on blood alcohol concentration (BAC) at elevated temperatures. Changes in serum alcohol concentration (SAC) and BAC were studied. Serum samples spiked with alcohol in the presence or absence of preservative were stored at 26.7 °, 32.2 ° or 37.8 °C respectively. Serum alcohol concentrations were determined daily on days 1 through 14, and on days 21 and 35. Under these controlled conditions, no significant change in SAC was observed at the aforementioned temperatures. Whole blood samples submitted from outside agencies were initially analyzed (day 1), then stored for 35 days at different elevated temperatures before a second analysis. The average loss in BAC was 19.20 ± 15.6, 9.95 ± 5.7, and 15.60 ± 6.9% when the samples were stored at 26.7, 32.2 and 37.8 °C, respectively. The alcohol loss from whole blood samples may be attributed to chemical oxidation rather than to elevated temperatures. It is, therefore, concluded that a whole blood sample obtained from a living individual and stored in a locker, glove compartment or other environment where the temperature is elevated, may lose 10–19% of its alcohol content over 35 days of storage. On the other hand, when a serum or plasma sample is exposed to the same environment, no significant change in SAC was observed. The utility of this information is significant to the forensic toxicologist. The results of this study suggest that a whole blood sample analyzed after exposure to elevated temperature may have had, originally, a higher BAC.     

Review of factors susceptible of influencing post-mortem carbohydrate-deficient transferrin

Seric carbohydrate-deficient transferrin (CDT) is a biochemical marker of chronic alcohol abuse. Assessment of the influence of factors likely to modify CDT concentration is necessary to justify its use in the analysis of post-mortem blood samples. Hemolysis, site of collection and storage were tested. Hemolysed samples showed decreased CDT concentration. Statistical analysis of CDT concentration in cardiac blood versus femoral blood revealed no significant differences. Storage for fifteen days at +4 degrees C or +20 degrees C did not affect CDT concentration but repeated freezing and thawing resulted in decreased levels of CDT.     

顶空气质联用法测定腐败血、肝检材中CO

目的研究CO中毒腐败血、肝组织检材中CO的HS/GC/MS检测。方法用HS/GC/MS法分析碳氧血红蛋白(COHb)血的线性范围。配制10%、30%、50%、70%浓度COHb血样,分别在室温、冷藏、冷冻条件下保存,分别在当日、第4、14、45d进行测定,比较实验结果。腐败肝组织由雄性健康家兔通CO气体致死,当天解剖,家兔肝常温隔绝空气保存并放35d至腐败,期间进行不定期顶空测定分析。结果制备的COHb血在0-100%之间有良好的线性关系Y=2.4X+2.2(r=0.9995)。以此方法测定家兔CO中毒致死的COHb新鲜血的浓度和4℃下放置45dCOHb腐败血,结果表明温度对血样中COHb%的测定影响最大。采用HS/GC/MS法检测,每次只需0.25ml血样或1g肝脏,分析一次时间只需3min,均可检测出新鲜检材和常温放置45d的腐败肝组织检材CO的含量。结论HS/GC/MS法能检出CO中毒的腐败生物检材中CO。     

生物检材采集与保存套管的应用

目的探讨生物检材采集与保存套管在法医学中的应用价值。方法在不同温、湿度环境下，观察悬空放置在生物检材采集与保存套管、有孔与外界相通的套管及密闭管内的湿润棉签的干燥时间30次；分别用生物检材采集与保存套管和医用棉签采集纸袋保存口腔细胞、血液、皮肤脱落细胞样本各20例，磁珠法提取DNA并进行DNA定量；用生物检材采集与保存套管采集口腔脱落细胞和血样进行DNA直接扩增。结果在温度4～30℃、相对湿度21％～90％的环境下，湿润棉签在套管内的平均干燥时间为7．89h，有孔管内的为23．30h，密闭管内观察15天仍不干燥，出现霉斑。生物检材用套管采集保存比医用棉签采集纸袋保存方式获得的DNA量显著提高，平均高达0．968倍；用套管采集口腔细胞和血样进行直接扩增，操作简单方便，成功率高。结论生物检材采集与保存套管具有快速干燥、对检材无损耗和浓缩等优点，可提高检材DNA的提取效率，且适合直接扩增。     

The effect of sodium fluoride preservative and storage temperature on the stability of 6-acetylmorphine in horse blood, sheep vitreous and deer muscle

This study examined the in vitro stability of 6-acetylmorphine (6AM) in horse blood, sheep vitreous humour (VH) and homogenised deer muscle stored under different storage conditions. The stability of 6AM in horse blood is of interest because many toxicological laboratories utilise this matrix for the preparation of blood calibration and check standards and the latter are typically stored during routine use. Data on the storage stability of 6AM in human VH is extremely limited and no data has been reported in muscle. In the absence of human samples, 6AM stability was demonstrated in sheep vitreous and deer muscle. Blood and VH were stored with and without NaF at room temperature (RT), 4 and -18°C for 84 days. Muscle tissue homogenates were prepared in water with and without NaF and also in phosphate buffer (pH 6.0) containing NaF. Homogenates were stored for 31 days at RT, 4 and -18°C. Morphine and 6AM were extracted using SPE and quantified by GC-ion trap-MS/MS. In the absence of NaF, 6AM could not be detected after 7 and 14 days in blood stored at RT and 4°C, respectively. Although at -18°C 6AM was stable for 7 days (12% loss), only 54% was detected by day 84. The addition of NaF to horse blood increased 6AM stability substantially at every temperature. Further, the rate of degradation was found to be significantly slower in blood preserved with 2% NaF compared with 1% NaF (p=.05). 6AM was stable for the study period in preserved blood (1 and 2% NaF) stored at -18°C. For laboratories utilising horse blood in the preparation of standards, preservation with 1% NaF (minimum) and storage at -18°C is recommended. The addition of NaF to VH was essential for 6AM stability. Irrespective of temperature substantial losses (≥ 42%) were observed in unpreserved sheep VH by day 7. In preserved VH the concentration declined by only 22% on day 7 following storage at RT and no loss observed in VH stored at 4 and -18°C at the same time. In muscle, 6AM was stable for 7 days in preserved samples stored at RT and in all samples stored at 4°C and below. The addition of NaF increased the stability of 6AM substantially in muscle. The increased stability of 6AM in VH and muscle preserved with fluoride was attributed to inhibition of bacterial action and the subsequent reduction in the rate of putrefaction of these tissues.     

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。     

Detection of ethyl glucuronide in blood spotted on different surfaces

This study aims to show that sensitive detection of ethyl glucuronide in dried blood spotted onto various surfaces after a period of 24h is feasible. At present, there is insufficient information how tightly ethyl glucuronide (EtG) binds to various materials and how easily it can be eluted. 4ml aliquots of blood samples obtained from seven volunteers after consumption of alcoholic beverages were applied to six different surfaces. After drying and a 24h-storage at 20±2°C the samples were re-dissolved in water, and EtG was subsequently analyzed by a LC-MS Paul-type ion trap. A comparison was made between dried and corresponding fluid samples. EtG was detectable in all subjects' samples following consumption of alcohol. EtG was also detectable after a storage time of four weeks at 4°C in whole blood that had been preserved with EDTA. EtG was detectable in all samples dried on different surfaces and its concentration remained relatively constant irrespective of the particular condition of the material. Detection of EtG in blood spots from the scene may indicate recent alcohol consumption in cases where collection of blood remained undone or could not be performed.     

The Stability of 4-Chloromethcathinone in Blood and Vitreous Humor

We present results of our study on the stability of 4-chloromethcathinone (4-CMC) in authentic postmortem peripheral blood and vitreous humor samples. The stability of 4-CMC was determined in postmortem blood samples (for a period of 90 days) and vitreous humor (30 days) at three different temperatures: −15°C, +4°C, and + 23°C. The analyses were carried out using ultra-high-performance liquid chromatography coupled with triple-quadrupole tandem mass spectrometry (UHPLC-QqQ-MS/MS). In both materials, the lowest 4-CMC stability was demonstrated at room temperature. The blood samples stored in a freezer (−15°C) showed stability for the entire study period (90 days), while in the case of the vitreous humor sample stored at the same temperature the concentration of the substance decreased by 53% after 30 days. The study carried out in authentic postmortem blood and vitreous humor samples confirms the previous reports of 4-CMC instability in biological material. Authors suggest that the biological material should be stored frozen until analyses are carried out as soon as possible after collection of the material.     

Long-term storage of blood samples as whole blood at extremely low temperatures for methemoglobin determination

Changes in methemoglobin (Met-Hb) concentrations during storage of whole blood and a hemolysate at refrigerated or various freezing temperatures were examined using experimentally prepared blood samples. When whole blood was stored at 3 degrees C, rapid reduction of Met-Hb was observed in the nitrite-treated blood whereas neither reduction nor formation of Met-Hb was observed in the untreated and heated blood within 7 days. When hemolysate was stored at 3 degrees C, Met-Hb concentrations were stable within a few days regardless of the initial values. However, slight autoxidation was observed 7 days after storage in the untreated and heated blood. When whole blood was stored at various freezing temperatures, Met-Hb concentrations were practically stable until at least 30 days at -80 degrees C or -196 degrees C regardless of the initial values, although considerable autoxidation was observed at -30 degrees C especially in the blood containing small amounts of Met-Hb. Based on the results obtained, a new method was devised for long-term storage of whole blood at extremely low temperatures for Met-Hb determinations.