为糖化血红蛋白（HbA1c）全面质量控制计划选择基于风险的统计质量控制程序。

Selecting a Risk-Based SQC Procedure for a HbA1c Total QC Plan.

作者信息

Westgard Sten A, Bayat Hassan, Westgard James O

机构信息

1 Westgard QC, Inc, Madison WI, USA.

2 Sina Medical Laboratory, Qaem Shahr, Iran.

出版信息

J Diabetes Sci Technol. 2018 Jul;12(4):780-785. doi: 10.1177/1932296817729488. Epub 2017 Sep 14.

DOI:10.1177/1932296817729488

PMID:28905657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6134308/

Abstract

BACKGROUND

Recent US practice guidelines and laboratory regulations for quality control (QC) emphasize the development of QC plans and the application of risk management principles. The US Clinical Laboratory Improvement Amendments (CLIA) now includes an option to comply with QC regulations by developing an individualized QC plan (IQCP) based on a risk assessment of the total testing process. The Clinical and Laboratory Standards Institute (CLSI) has provided new practice guidelines for application of risk management to QC plans and statistical QC (SQC).

METHODS

We describe an alternative approach for developing a total QC plan (TQCP) that includes a risk-based SQC procedure. CLIA compliance is maintained by analyzing at least 2 levels of controls per day. A Sigma-Metric SQC Run Size nomogram provides a graphical tool to simplify the selection of risk-based SQC procedures.

APPLICATIONS

Current HbA1c method performance, as demonstrated by published method validation studies, is estimated to be 4-Sigma quality at best. Optimal SQC strategies require more QC than the CLIA minimum requirement of 2 levels per day. More complex control algorithms, more control measurements, and a bracketed mode of operation are needed to assure the intended quality of results.

CONCLUSIONS

A total QC plan with a risk-based SQC procedure provides a simpler alternative to an individualized QC plan. A Sigma-Metric SQC Run Size nomogram provides a practical tool for selecting appropriate control rules, numbers of control measurements, and run size (or frequency of SQC). Applications demonstrate the need for continued improvement of analytical performance of HbA1c laboratory methods.

摘要

背景

美国近期的质量控制（QC）实践指南和实验室法规强调了质量控制计划的制定以及风险管理原则的应用。美国《临床实验室改进修正案》（CLIA）现在包括一种选择，即通过基于对整个检测过程的风险评估制定个性化质量控制计划（IQCP）来遵守质量控制法规。临床和实验室标准协会（CLSI）已提供了将风险管理应用于质量控制计划和统计质量控制（SQC）的新实践指南。

方法

我们描述了一种制定全面质量控制计划（TQCP）的替代方法，该方法包括基于风险的SQC程序。通过每天分析至少两个水平的质控品来维持CLIA合规性。西格玛指标SQC运行规模列线图提供了一种图形工具，以简化基于风险的SQC程序的选择。

应用

正如已发表的方法验证研究所表明的，当前糖化血红蛋白（HbA1c）方法的性能估计充其量为4西格玛质量。最佳的SQC策略需要比CLIA每天两个水平的最低要求更多的质量控制。需要更复杂的控制算法、更多的控制测量以及括弧操作模式来确保预期的结果质量。

结论

具有基于风险的SQC程序的全面质量控制计划为个性化质量控制计划提供了一种更简单的替代方案。西格玛指标SQC运行规模列线图为选择合适的控制规则、控制测量数量和运行规模（或SQC频率）提供了一种实用工具。应用表明需要持续改进HbA1c实验室方法的分析性能。

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