Validation of an ion selective electrode system for the analysis of serum fluoride ion.

E B Duly, S R Luney, T R Trinick, J M Murray, J E Comer
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引用次数: 4

Abstract

A high impedance unit was developed for use with a fluoride/pH electrode system for the measurement of serum fluoride. The linearity, accuracy, precision and detection limit of the system is reported. At a pH of 1.55, the system was linear over a range of serum fluoride concentrations up to 100 mumol l(-1), with a lower limit of detection of 0.3 mumol l(-1). Recoveries at this pH were 94-105% in the range 2.6-100 mumol l(-1). Within-run CVs ranged from 4.2% at a level of 2.3 mumol l(-1) to 1.2% at a level of 55.7 mumol l(-1), while day-to-day CVs ranged from 12.8% at a level of 2.2 mumol l(-1) to 4.6% at a level of 51.7 mumol l(-1). The system demonstrated a rapid response time and has the potential for a smaller sample size requirement with alternative electrode shape. Continued development of this unit into an automated fluoride ion selective electrode system is recommended, since the measurement of serial serum fluoride samples is of greatest importance in assessing the impact of new anaesthetic agents on renal function.

离子选择电极系统用于血清氟离子分析的验证。
开发了一种高阻抗单元,用于氟化物/pH电极系统测量血清氟化物。报告了系统的线性度、准确度、精密度和检出限。在pH为1.55时,该系统在高达100 μ mol l(-1)的血清氟化物浓度范围内呈线性,检测下限为0.3 μ mol l(-1)。在2.6 ~ 100 μ mol l(-1)范围内,回收率为94 ~ 105%。在2.3 μ mol l(-1)水平下,运行内CVs为4.2%,在55.7 μ mol l(-1)水平下为1.2%,而在2.2 μ mol l(-1)水平下,日常CVs为12.8%,在51.7 μ mol l(-1)水平下为4.6%。该系统具有快速的响应时间,并且具有可选择电极形状的更小样本量要求的潜力。建议继续将该装置发展为自动氟化物离子选择电极系统,因为连续血清氟化物样品的测量在评估新麻醉剂对肾功能的影响中是最重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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