Seo Jong Do, Kwon Gye Cheol, Kim Jeong-Ho, Lee Sang-Guk, Song Junghan, Park Pil-Whan, An Dongheui, Choi Qute, Cho Chan-Ik, Kim Sollip, Yun Yeo-Min
Department of Laboratory Medicine, Konkuk University Medical Center, Konkuk University School of Medicine, Seoul, Korea.
Department of Laboratory Medicine, Chungnam National University Hospital, Chungnam National University School of Medicine, Daejeon, Korea.
Ann Lab Med. 2025 Sep 3. doi: 10.3343/alm.2025.0010.
Ensuring reference material (RM) commutability is crucial for evaluating measurement traceability in order to standardize laboratory tests. However, commutability assessment is not routinely performed. We assessed whether RMs prepared following CLSI C37-A guidelines could be used without assessing commutability by evaluating their commutability for four lipid measurements using the International Federation of Clinical Chemistry and Laboratory Medicine (IFCC) and CLSI EP14 protocols.
We analyzed total cholesterol (TC), triglycerides (TGs), high-density lipoprotein cholesterol (HDL-C), and low-density lipoprotein cholesterol (LDL-C) in frozen sera from 20 individuals and 11 RMs, prepared by the Korea Disease Control and Prevention Agency-Laboratory Standardization Project (per CLSI C37-A), using six routine measurement procedures (MPs). Regression equations and 95% prediction intervals derived from single-donor sera were analyzed following CLSI EP14. The IFCC protocol was used to assess differences in inter-MP biases between RM and clinical samples. The effect of the TG concentration on commutability was evaluated by analyzing biases between MP results and reference procedure-assigned values.
RMs were commutable for most MP pairs for TC and TG. Commutability for HDL-C and LDL-C varied across RMs, with RM10 and RM11 showing higher TG levels (2.38 and 2.95 mmol/L, respectively) and lower commutability. Increased bias percentages from assigned values were observed for RMs with higher TG levels.
RMs prepared per CLSI C37-A were commutable with most MP pairs for TC and TG. Elevated TG levels affected HDL-C and LDL-C commutability, highlighting the need to consider TG concentrations during RM preparation and assess commutability to standardize laboratory tests.
确保参考物质(RM)的互换性对于评估测量溯源性至关重要,以便实现实验室检测的标准化。然而,互换性评估并非常规进行。我们通过使用国际临床化学和检验医学联合会(IFCC)及CLSI EP14协议评估按照CLSI C37 - A指南制备的参考物质在四项血脂测量中的互换性,来判断是否可以在不评估互换性的情况下使用这些参考物质。
我们使用六种常规测量程序(MP)分析了来自20名个体的冷冻血清以及由韩国疾病控制与预防机构实验室标准化项目(按照CLSI C37 - A)制备的11种参考物质中的总胆固醇(TC)、甘油三酯(TG)、高密度脂蛋白胆固醇(HDL - C)和低密度脂蛋白胆固醇(LDL - C)。按照CLSI EP14分析来自单供体血清得出的回归方程和95%预测区间。IFCC协议用于评估参考物质与临床样本之间MP间偏差的差异。通过分析MP结果与参考程序赋值之间的偏差来评估TG浓度对互换性的影响。
对于TC和TG,大多数MP对的参考物质具有互换性。HDL - C和LDL - C的互换性在不同参考物质间有所不同,其中RM10和RM11的TG水平较高(分别为2.38和2.95 mmol/L)且互换性较低。TG水平较高的参考物质观察到赋值偏差百分比增加。
按照CLSI C37 - A制备的参考物质与大多数MP对在TC和TG方面具有互换性。升高的TG水平影响HDL - C和LDL - C的互换性,凸显了在参考物质制备过程中考虑TG浓度并评估互换性以实现实验室检测标准化的必要性。
