First application of CE-ICP-MS for monitoring the formation of cisplatin targeting delivery systems with gold nanocarriers

Cisplatin is a drug frequently used in chemotherapy of various types of tumors due to its strong cytostatic activity against cancer cells. However, this therapy is not free from severe side effects related to the nonselective action of the drug. The solution to this problem could be the application of drug-targeted delivery systems (DTDSs). Gold nanoparticles can be used in such systems as selective drug carriers, ensuring its transportation through the bloodstream to destination tissue. The method of DTDSs analysis providing qualitative and quantitative information about the formation of this conjugation is crucial to establish the kinetics of reaction and stoichiometry of reagents, which ensures the best drug binding rate. Moreover, the status of so far proposed techniques/methods dedicated to elaborating the course of DTDSs formation is preliminary and in majority guarantee only the confirmation of drug‒carrier conjugate formation. In this paper, we demonstrate the procedures of reagents’ preparation and cisplatin‒gold nanoparticles DTDS formation, which have a significant influence on the rate and stoichiometry of the reaction. We also present the novel application of CE-ICP-MS hyphenation for effective separation and online monitoring of all components of the reaction mixture.     

自动石墨消解–电感耦合等离子体质谱法同时测定左氧氟沙星胶囊中7种金属元素

建立自动石墨消解-电感耦合等离子体质谱法(ICP-MS)同时测定左氧氟沙星胶囊中铅、铬、砷、镉、锡、铝、铁7种金属元素含量的方法。以HNO3-H2O2()体积比为1∶1为消解体系,采用自动石墨消解法消解左氧氟沙星胶囊样品,消解液除酸后,用5%硝酸溶液定容至50 mL,采用电感耦合等离子体质谱法对消解液进行测定,以内标法定量。铅、铬、砷、镉、锡、铝、铁的质量浓度在0.05~20.0μg/mL范围内与质谱响应值成良好的线性关系,相关系数均大于0.998,方法检出限为0.119~1.323μg/kg。样品加标回收率为91.2%~105.5%,测定结果的相对标准偏差为1.67%~3.46%(n=6)。该方法样品前处理简单,检出限低,测定结果准确,适用于左氧氟沙星胶囊等沙星类抗生素中多种金属元素残留的测定。     

微波消解-ICP-MS法测定药用明胶空心胶囊中微量重金属元素

采用微波消解技术,建立了一种电感耦合等离子体质谱法测定明胶空心胶囊中Cr,Co,Ni,Cu,Zn,As,Cd,Hg和Pb 9种微量重金属元素的方法。确定了微波消解仪和等离子体质谱仪的最佳操作参数,研究共存离子的干扰和消除方法,选择了各元素的测定同位素,以Ge,Rh和Tl为内标补偿基体效应,建立了样品测定方法。应用拟定的方法测定了不同生产厂家、不同批次的空心胶囊中微量重金属的含量。方法对试样中各元素测定的相对标准偏差为1.5%~14.1%,加标回收率在90.0%~102.0%。结果表明,方法简便、快速、灵敏,满足于空心胶囊中9种重金属元素的测定要求。     

电感耦合等离子体质谱(ICP-MS)法测定离子吸附型稀土矿中的浸出稀土元素

对浙江某地大量的离子吸附型稀土样品进行了稀土元素(Y,La,Ce,Pr,Nd,Sm,Eu,Gd,Tb,Dy,Ho,Er,Tm,Yb,Lu)的浸提和测定实验,实验对比了氯化铵和硫酸铵溶液对矿石中稀土元素的浸出性能,选择了杂质浸出较少的硫酸铵溶液作为浸出剂,对不同稀土含量的吸附型稀土矿进行了实验,浸出方法稳定,符合工业开采要求。实验了电感耦合等离子体质谱法测定浸出液中稀土元素分量的方法,浸出液经大比例稀释并酸化后测定,精密度较好,能满足离子吸附型稀土矿评价的质量要求,方法检出限(6σ)0.005~0.26μg/g,单元素测定精密度(n=6,RSD≤6.0%),浸出稀土元素总量测定RSD≤4.0%。实际样品的实验及测定结果满意。     

ICP-MS测定土壤中的部分重金属元素*

本文采用ICP-MS法测定了土壤国家标准样品中的部分重金属元素(Cd、Cu、Pb、Zn、Cr、 Ni、Mo)的含量,其测定值与推荐值相符,准确度符合要求。各元素方法的检出限满足要求,精密度介于0.91％～4.34％,加标回收率介于94％～106％。该方法简便快速,结果准确,可以运用于大批量地质样品中的部分重金属元素含量的同时测定。     

电感耦合等离子体质谱(ICP-MS)法测定葡萄酒中的铜、镉、铅

建立了电感耦合等离子体质谱(ICP-MS)法直接测定葡萄酒中铜、镉、铅含量的一种快速、灵敏、准确的定量方法。采用微波消解及直接进样技术比对,结果表明,以钪(Sc)、铟(In)、铽(Tb)为内标元素,消除基体干扰及仪器漂移。在选定的仪器条件下,直接进样,外标法定量,相对标准偏差小于3%,加标回收率在86.4%~100%,精密度和准确度都能满足测定要求,成功用于能力验证样品的测定,结果令人满意。     

电感耦合等离子体质谱(ICP-MS)法测定地质样品中Cu和Zn的干扰研究

电感耦合等离子体质谱法（ICP-MS）标准模式测定地质样品中Cu和Zn时,样品溶液中Ti在高温下易形成TiO+和 TiOH+离子产生重叠干扰,使测定值偏离真值而影响测定结果。采用氢氟酸-高氯酸-硝酸消解、王水复溶样品,通过多级在线校正46Ti16O+,消除TiO+和 TiOH+离子重叠干扰,研究了单质Ti与46Ti16O+、质荷比63、64、65、66离子间存在的关系,建立了一种电感耦合等离子体质谱(ICP-MS)法测定地质样品中Cu和Zn的分析方法。实验结果表明：单质Ti对Cu和Zn产生的干扰值与其质量浓度呈非简单的正相关性,TiO+产生的干扰离子质荷比65离子强度比63高,质荷比64离子强度比66 高; 46Ti16O+对质荷比63、66离子干扰增量值与单质Ti质量浓度变化无关;62Ni对46Ti16O+产生同量异位素重叠干扰,测定值须校正来自62Ni的贡献。ICP-MS测定地质样品中Cu和Zn时应选择测量同位素63Cu和66Zn,其检出限（n=7）分别为0.35 μg/g和0.63 μg/g。经有证标准物质验证,测定值与认定值吻合,准确度（RE）<8.6%,精密度（RSD,n=6）<5%。本方法适用于ICP-MS测定地质样品中Cu和Zn的质谱干扰消除,满足地质分析要求。     

微波消解-ICP-MS法测定硫磺中18种微量元素

建立了用微波消解-电感耦合等离子体质谱法(ICP-MS)同时测定硫磺中18种微量元素(锂、镁、铝、钙、钒、铬、锰、铁、钴、镍、铜、锌、镉、砷、硒、钡、铅和汞)的定量分析方法。通过对消解所用试剂及条件进行研究,确定最佳的样品处理条件;为了获得最佳的信噪比并降低光谱干扰,研究采用单变量方法,对ICP-MS的射频功率和雾化气体流量等因素进行了性能优化。结果显示：该方法各元素的校准曲线线性相关系数在0.999以上,所有元素的检出限(LODs) 在0.001-0.962 mg/Kg之间,测定下限范围在0.004-3.85 mg/Kg之间,回收率在82.9 %~115 %之间,相对标准偏差均小于3 %。     

石墨消解-ICP-MS法同时测定铜精矿中4种有害元素

为弥补标准检测方法的不足,建立了石墨消解-ICP-MS法同时检测铜精矿中Pb、Cd、As 和Hg等4种有害元素。确定了样品前处理和仪器分析条件。用铜精矿标准样品和参考样品分别进行7次重复实验,Pb、Cd和As的检测结果均在标准值范围内,Hg的检测结果与参考值基本一致。7次重复检测结果的变异系数符合GB/T 27417-2017《合格评定 化学分析方法确认和验证指南》要求。选择5种不同物相铜精矿作为待测样品,通过与标准方法比对,两种方法检测结果的绝对差符合标准方法的再现性要求,说明本方法适用于不同种类的铜精矿。本方法操作简单,可同时测定多种有害元素,实用性强。     

Heavy Metals in Acrylic Color Paints Intended for the School Children Use: A Potential Threat to the Children of Early Age

Heavy metals are the harmful elements, regarded as carcinogens. Nevertheless, owing to their physical and chemical properties, they are still used in the production of several commercial products. Utilization of such products increases the chance for the exposure of heavy metals, some of them are categorized as probable human carcinogens (Group 1) by the International Agency for Research on Cancer. Exposure of heavy metals to school children at early age can result severe life time health issues and high chance of emerging cancer. Thus, we have performed study relating to the presence of heavy metals in acrylic color paints commonly used by the school children. Acrylic paints of different colors were assayed for seven potential heavy metals manganese (Mn), cobalt (Co), nickel (Ni), zinc (Zn), arsenic (As), cadmium (Cd) and lead (Pb) using microwave digestion and iCAPQ inductively coupled plasma mass spectrometry (ICP-MS) system. The optimized method including paints digestion reagents nitric acid (HNO₃, 65%, 5 mL) and hydrofluoric acid (HF, 40%, 2 mL) have offered excellent method performance with recovery values ranged between 99.33% and 105.67%. The elements were identified in all of the analyzed samples with concentrations ranged from 0.05 to 372.59 µg/g. Cd constitutes the lower percentage (0.05%), whereas Zn constitutes high ratio contribution which was tremendously high (68.33%). Besides, the paints contamination was also color specific, with considerably total heavy metal concentrations found in brunt umber (526.57 µg/g) while scarlet color (12.62 µg/g) contained lower amounts. The outcomes of our investigation highlight the necessity for guidelines addressing the heavy metals in acrylic color paints intended for the school children usage.