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Capillary electrophoresis coupled with indirect UV detection was already developed for the analysis of cations in TPN [2] and appeared as a valuable alternative to flame spectrometry or IC. Indirect UV detection for routine analysis can be difficult to implement due to the obligation to create a detection window on the capillary and the use of complex buffers containing most often carcinogen and mutagen chromophore agents. The apparition of contactless conductivity detectors offered to users an easy handling of capillary and a simpler buffer conception. Nussbaumer et al. already presented a CE method dedicated to the problematic of cation in TPN analyses [3]. This method used a hydro-organic Background Electrolyte (BGE) composed by 100 mM Tris/acetate buffer at pH 4.5 and acetonitrile (80/20, v/v). The separation was obtained in 4 min with limits of detection was estimated at 0.02 mM for all cations. 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引用次数: 1
摘要
医院药房配用全肠外营养(Total parenternutrition, TPN)制剂时,由于患者存在风险,需要高质量的分析控制[1]。在新生儿服务中,电解质浓度的错误会对患者,特别是婴儿的健康造成重大损害。对于婴儿和儿童,一些医院使用商业TPN,但另一些医院更倾向于在制药实验室手工或自动配制设备直接制备的个体肠外营养。今天,在给患者用药之前,必须对制剂质量进行重要控制,以消除可能产生严重临床后果的概念错误。毛细管电泳与间接紫外检测相结合的方法已经被用于分析TPN中的阳离子[2],并成为火焰光谱法或IC的一种有价值的替代方法。常规分析的间接紫外检测很难实施,因为有责任在毛细管上创建检测窗口,并且使用复杂的缓冲液,通常含有致癌物和诱变原发色团剂。非接触式电导率检测器的出现为用户提供了一种易于处理的毛细管和更简单的缓冲概念。Nussbaumer等人已经提出了一种CE方法,专门用于TPN分析中的阳离子问题[3]。本方法采用由100 mM Tris/acetate缓冲液(pH为4.5)和乙腈(80/20,v/v)组成的氢有机背景电解质(BGE)。分离在4分钟内完成,所有阳离子的检出限估计为0.02 mM。本申请说明的重点是验证一种更快、更敏感的C4D检测CE方法,发表在《JOURNAL of APPLIED BIOANALYSIS》2016年4月,第76-80页。http://dx.doi.org/10.17145/jab.16.010 (ISSN 2405-710X)第二卷,第2期
Fast analysis of potassium, sodium, calcium, and magnesium cations in total parenteral nutrition formulations with the Wyn-CE Capillary Electrophoresis System coupled with a contactless conductivity detection
The compounding of Total Parenteral Nutrition (TPN) formulations in hospital pharmacies needs a high quality analytical control due to the risk incurred by the patient [1]. Errors in the electrolyte concentrations can lead to important damages on health patient, especially for babies, in neonatology services. For babies and children, some hospitals used commercial TPN but others preferred Individual Parenteral Nutrition directly prepared in pharmaceutical laboratory manually or with an automated compounding device. An important control of the formulation qualities is today mandatory before the administration to the patient in order to eliminate conception errors which can have serious clinical consequences. Capillary electrophoresis coupled with indirect UV detection was already developed for the analysis of cations in TPN [2] and appeared as a valuable alternative to flame spectrometry or IC. Indirect UV detection for routine analysis can be difficult to implement due to the obligation to create a detection window on the capillary and the use of complex buffers containing most often carcinogen and mutagen chromophore agents. The apparition of contactless conductivity detectors offered to users an easy handling of capillary and a simpler buffer conception. Nussbaumer et al. already presented a CE method dedicated to the problematic of cation in TPN analyses [3]. This method used a hydro-organic Background Electrolyte (BGE) composed by 100 mM Tris/acetate buffer at pH 4.5 and acetonitrile (80/20, v/v). The separation was obtained in 4 min with limits of detection was estimated at 0.02 mM for all cations. This application note focused on the validation of a faster and more sensitive CE method with C4D detection for the JOURNAL OF APPLIED BIOANALYSIS, April 2016, p. 76-80. http://dx.doi.org/10.17145/jab.16.010 (ISSN 2405-710X) Vol. 2, No. 2
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