天然药物及制剂中微量元素硒的测定方法概况

硒是人体必需的微量元素，具有抗肿瘤、防衰老、防辐射和增强机体免疫力等多种功能。本文就国内近年来对天然药物及其制剂中微量元素硒的分析方法概况作一综述，包括：原子吸收分光光度法、荧光分光光度法、电感耦合等离了光谱法、催化分光光度法、分光光度法、化学发光淬灭法、极谱法、中子活化分析法和色谱法等。     

海水中铜锌铅镉的萃取-反萃取法同时提取-原子吸收光谱法测定

采用萃取-反萃取法同时提取出海水中Cu、Zn、Pb、Cd,Cu、Pb、Cd石墨炉法测定,Zn用火焰法测定.对样品的前处理方法和最佳仪器条件进行了研究,并通过加标实验验证了方法的可靠性.结果表明:萃取-反萃取法能完全满足海水中Cu、Zn、Pb、Cd的前处理要求,可节省一半前处理时间,有溶液稳定、环保、节省试剂等优点.     

毛细管电泳单脉冲伏安测定重金属铜铅锌镉

以毛细管为分离通道 ,在KNO3 缓冲溶液中 ,用表面镀汞膜的金微电极作为工作电极 ,采用单脉冲伏安法同时测定铜、锌、铅、镉含量 ,考察并优化了影响分离和检测的相关因素 :缓冲溶液pH、分离高压、脉冲上限和下限、脉冲宽度等。该法的最佳实验条件 :5mmol/LKNO3(pH6.0) ,分离高压20kV ,脉冲上限 -0.2V ,脉冲下限 -1.15V(vs.SCE) ,脉冲宽度500ms。结果表明 ,各峰面积与其离子浓度成线性关系 ,线性范围(μg/mL)分别为 :铜5.0×10-2～10.0;锌1.0×10-2～10.0 ;铅5.0×10-2～5.0 ;镉2.0×10-2～10.0。加标回收率在95%～110%之间。用该法较好地测定了水样中的重金属铜锌铅镉     

电位溶出法同时测定水质和生物样品中的铜、铅、镉、锌、铁、锰

本文提出了在乙二胺和乙二胺-盐酸体系中以计时电位溶出法测定Fe、Mn及以电位溶出法测定Cu、Pb、Cd、Zn的新方法。各元素的浓度在Fe 0.1～2600 ng/ml、Mn0.05～3200 ng/ml、Cu0.2～2800 ng/ml、Pb0.1～3600ng/ml、Cd 0.05～1200 ng/ml、Zn0.2～4200ng/ml时,浓度与溶出峰高呈良好的线性关系。本方法应用于水质及生物样品中上述各元素的测定,结果良好。     

Simultaneous Determination of Cadmium,Copper, Lead and Zinc in Amino Acid Parenteral Nutrition Solutions by Anodic Stripping Voltammetry and Sample Digestion by UV Irradiation

Abstract

Irradiation with ultraviolet (UV) energy was investigated to assay cadmium, copper, lead, and zinc by anodic stripping voltammetry (ASV) in amino acid parenteral nutrition (PN) solutions. Sample digestion by UV irradiation showed the best performances to liberate the metals from the samples (metal recoveries between 90% and 102%) in comparison with classical oxidative wet digestion methods. The best UV digestion condition was obtained with 1:10 diluted PN samples irradiated during 10 h at 90±3°C with the addition of one aliquot of 50 µL concentrated H₂SO₄ and repeated additions of 50 µL 30% (v/v) H₂O₂ at each 60 min irradiation interval. By using the UV digestion procedure cadmium, copper, lead, and zinc were simultaneously assayed in commercial amino acid PN solutions by ASV. The metal concentrations ranged between 1.3 to 4.4 for cadmium, 2.9 to 40.8 for copper, 4.4 to 16.8 for lead, and 1.4 to 208.5 for zinc. The ASV method correlated well with atomic absorption spectrometry measurements to assay the investigated analytes in amino acid PN samples after the UV digestion.     

Heavy Metals in Matrices of Food Interest: Sequential Voltammetric Determination at Trace and Ultratrace Level of Copper,Lead, Cadmium,Zinc, Arsenic,Selenium, Manganese and Iron in Meals

The voltammetric methods are very suitable and versatile techniques for the simultaneous metal determination in complex matrices. The present work, regarding the sequential determination of Cu(II), Pb(II), Cd(II), Zn(II) by square‐wave anodic stripping voltammetry (SWASV), As(III), Se(IV) by square‐wave cathodic stripping voltammetry (SWCSV) and Mn(II), Fe(III) by square‐wave voltammetry (SWV) in matrices involved in foods and food chain as wholemeal, wheat and maize meal, are an interesting example of the possibility to sequentially determine each single element in real samples. Besides the set up of the analytical method, particular attention is aimed either at the problem of possible signal interference or to show that, using the peak area A_p as instrumental datum, it is possible to achieve lower limits of detection. The analytical procedure was verified by the analysis of the standard reference materials: Wholemeal BCR‐CRM 189, Wheat Flour NIST‐SRM 1567a and Rice Flour NIST‐SRM 1568a. Precision, as repeatability, and accuracy, expressed as relative standard deviation and relative error, respectively, were lower than 6% in all cases. In the presence of reciprocal interference, the standard addition method considerably improved the resolution of the voltammetric technique. Once set up on the standard reference materials, the analytical procedure was transferred and applied to commercial meals sampled on market for sale. A critical comparison with spectroscopic measurements is also discussed.     

氧化电位溶出法测定水质和生物样品中的铜、铅、镉、锌、锰

在潭石酸-NaOH(pH=9)底液中,用银基汞膜电极作工作电极,以底液中的溶解氧作氧化剂,Cu~(2+)、pb~(2+)、Cd~(2+)、Zn~(2+)分别能产生灵敏的溶出峰。峰电流对浓度的线性范围依次为0.2～2800ng/ml、0.1～3400ng/ml、0.05～1400ng/ml、0.2～6100ng/ml。往上述底液中再加入适量的对氨基苯磺酸,Mn~(2+)亦可产生灵敏的电位溶出峰,线性范围为0.5～4800ng/ml。     

肝硬化患者血清铜,锌含量测定与分析

检测了３０例肝硬化患者血清铜，锌含量，同时与３０例健康人进行对照，结果显示，肝硬化患者血铜明显增高，血锌明显降低，与健康人对照组有显著差异。     

微分电位溶出法连续测定饮料中的铜铅镉锌

建立了微分电位溶出法连续测定饮料中痕量铜、铅、镉、锌的新方法。在HAc- Na Ac( p H4 .5)～ 3.5× 1 0 -2 mol·L-1KCl～ 2 .6× 1 0 -5 mol· L-1Hg2 +介质中测定锌 ,然后调节底液为 0 .0 1 mol·L-1HCl,连续测定铜、铅、镉。铜、铅、镉、锌 ,检出限分别为 4 ,0 .1 ,2 ,4 μg· L-1,线性测定范围 Zn2 +:0～ 30 0 μg·L-1,Cu2 +、Pb2 +、Cd2 +:0～ 2 2 0μg· L-1,回收率为 83.4 %～ 1 0 3.3% ,RSD<3.4 % ( n=7)。该法较好解决了金属互化物的影响 ,样品不需消化便可直接测定。     

Determination of Arsenic,Cadmium, Cobalt,Chromium, Nickel,and Lead in Cosmetic Face-Powders: Optimization of Extraction and Validation

An analytical method for the quantification of toxic metals in face-powders is presented and discussed. Acid digestion with HNO₃-H₂O₂ or HNO₃-HCl was performed and compared with total digestion by HF. The digestion with HNO₃-H₂O₂ was the most suitable for these purposes. Analyses were performed by inductively coupled plasma atomic emission spectrometry (ICP-OES) and inductively coupled plasma mass spectrometry (ICP-MS), whose performances were compared by analyzing three different certified reference materials. The analysis of five commercial face-powders revealed the presence of all the considered metals in the range 0.06–8.0 µg/g. To simulate the bioaccessibility of metals in physiological conditions, a digestion with a simulated sweat solution was performed. In this case, the analysis of the same face-powder samples provided results below the limit of quantification, suggesting low bioaccessibility of the considered trace elements.     

氢化物发生-原子荧光法测定天然水及化妆品中痕量铅

氢化物发生-原子荧光光谱法应用于天然水及化妆品中痕量铅的测定,对分析的条件进行了试验并予以优化,所用的铁氰化钾在配制溶液时须用酸洗的活性碳处理以除去试剂中可能存在的包括铅在内的杂质.在0.25 mol·L-1的硝酸介质中,当硼氢化钾浓度为30 g·L-1时,荧光强度与铅(Ⅱ)浓度之间在1 000 μg·L-1以内呈线性关系,其检出限为0.62 μg·L-1,在此浓度区间,测得的RSD值(n=8)在1.25%～1.29%之间,所得的回收率试验的结果在90.4%～104.4%之间.     

Maintenance of Soft Calibration Models in the Determination of Zinc,Cadmium, Lead and Copper by Differential Pulse Anodic Stripping Voltammetry

A strategy for constructing a global multivariate calibration model that includes calibration samples measured over time on different days is developed and applied in electroanalysis. Both synthetic and real samples (tap, extracted and river water) are analyzed by differential‐pulse anodic stripping voltammetry, showing the suitability of the global model constructed that provides successful results similar to those of the usual multivariate calibration. In addition the capability of discrimination of this model is evaluated in prediction for the mean of three replicates with estimation of probability of false noncompliance, α, and false compliance, β, being found 3.1, 11.2, 6.7 and 64.7 nM for nominal concentrations of zinc, cadmium, lead and copper of 96.0, 40.4, 37.3 and 328.0 nM respectively when α=β=0.05. It has been proven that the use of the global calibration does not imply a loss of multivariate analytical sensitivity, using this parameter as quality index of the analytical procedure. The viability of using calibration maintenance strategies with electroanalytical techniques is shown, providing a way to save time and experimental effort when these techniques are used in routine analysis.     

同时测定癌症病人血液中锌镉铅铜的微分脉冲阳极溶出伏安法

用微分脉冲阳极溶出伏安法同时测定癌症病人血液中的锌、镉、铅和铜,以为癌症与这4种微量元素在血液中含量的相关性研究提供实验数据;癌症病人血液用硝酸-高氯酸消化,消化后的白色固体加水溶解,以0．100mol/L硫酸铵为底液,在三电极体系中进行测定,以峰电位定性,峰电流定量;用该法测定了3种癌症病人血液中的锌、镉、铅和铜,相对标准偏差为2．9％—3．3％(n＝6),加标回收率为98％—110％;该法不用除氧、干扰少、分辨率好、准确度高,适用于临床血液中锌、镉、铅和铜的测定和研究。     

微分电位溶出法连续测定人发中锌、铜、铅、镉

本文报道了连续测定人发中痕量锌、铜、铅、镉的微分电位溶出法。实验确定最佳支持电解质组成为1M HAc-0.4M KCl-1.5×10~(-2)M Hg(Ⅱ)。在此体系中测定上述四种元素的分辨率好,峰形好,灵敏度高,重现性好。试验了共存离子的影响,方法干扰少,回收率为96.7～105%,测试范围从ppb到ppm级。     

肝炎患儿发锌,铜,铅,镉含量的分析

采用闰溶出法测定８２例肝炎患儿的头发中锌,铜,铅,镉含量。结果显示,大多数急,慢性肝炎患儿发锌含量降低;发铜增高者仅占１／４和１／８,肝慢性肝炎中发铜降低者红占１／３,为急性肝炎的３倍;     

超临界CO_2络合萃取绿茶中Cu、Pb和Cd的研究

本文采用超临界CO2络合萃取法萃取绿茶中的Cu、Pb和Cd。分别考察了不同改性剂和络合剂、萃取压力、萃取温度以及静态和动态萃取时间对三种重金属的萃取率影响。研究结果表明:以磷酸三丁酯(TBP)/HNO3为络合剂,乙醇为改性剂,在20MPa、333K、静态和动态萃取时间分别为30min的最佳条件下,Cu、Pb和Cd的萃取率分别为78.3%、73.2%和69.5%。     

方波伏安法同时测定食物中的铜、铅、锌、镉、铁、钴、镍、锰

经过预处理的食物样品:在马福炉中灰化24h,加HNO_3、HClO_4蒸干。残渣用HC1O_4-酒石酸底液提取。首先用方波阳极溶出伏安法测定其中Cu、Pb、Zn、Cd。然后加入氨水使pH约为9.5,用方波阴极伏安法测定Fe、Mn。最后加入丁二酮肟溶液,用方波吸附伏安法测定Ni、Co。     

成都市东郊土壤中重金属元素垂直分布研究

采用王水消解样品,利用原子吸收分光光度法,对重金属元素(Cu、Pb、Zn、Cd)在成都市东郊土壤中的垂直分布进行了研究。该法对Cu的回收率为98%~104%,精密度为2.75%;Pb的回收率为95~97%,精密度为3.11%;Zn的回收率为99%~101%,精密度为2.31%;Cd的回收率为97%~102%,精密度为3.32%,测定方法简单、准确。