通过胰肽 LC-MS/MS 方法改进英夫利西单抗治疗监测，提高了准确性，减少了不精确度，缩短了周转时间

IF 3.1 4区医学 Q2 MEDICAL LABORATORY TECHNOLOGY Journal of Mass Spectrometry and Advances in the Clinical Lab Pub Date : 2024-02-03 DOI:10.1016/j.jmsacl.2024.01.007

Paula M. Ladwig, Ann L. Rivard, Alex Barbeln, Anthony Maus, David L. Murray, Melissa R. Snyder, Maria A.V. Willrich

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引用次数: 0

摘要

导言英夫利昔单抗的治疗药物监测已成为治疗炎症性肠病的标准方法，可用于治疗反应消失的情况，有时也可用于主动个性化治疗。在此，我们介绍了对最初发表的方法进行的改进，从而开发出一种更高效、更稳健、高通量的胰蛋白酶肽 HPLC-MS/MS 分析方法，用于英夫利昔单抗的定量分析。方法将提交临床检测的身份识别残留血清样本用于方法比较，并将英夫利昔单抗添加到正常人血清中进行性能研究。改进之处包括添加了稳定同位素标记的全长英夫利西单抗内标（IS）以取代替代内标，并使用免疫球蛋白瓜胶（Melon Gel）进行免疫富集以取代饱和硫酸铵沉淀。对消化和色谱法进行了优化，并增加了自动化功能。结果消化时间从过夜缩短到 1 小时。在整个改进过程中，测定分析量程 (AMR) 保持不变，为 1-100 µg/mL，线性度为 0.98x + 0.50，R2 = 1.00。在四种不同浓度下，测定内和测定间的不精确度均小于 5 % CV。对 AMR 中的 106 名患者进行了准确性评估；Passing-Bablok 回归得出的斜率为 1.00，y-截距为 0.25。新方法实施后，周转时间缩短了 1 天，三级质量控制的不精确度呈下降趋势。

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Infliximab Therapeutic monitoring by tryptic peptide LC-MS/MS method improvements lead to improved accuracy with decreased imprecision and turnaround time

Introduction

Therapeutic drug monitoring of infliximab has become the standard of care for inflammatory bowel disease in the setting of loss of response to therapy, and occasionally in proactive therapy personalization. Measurement of infliximab by tryptic peptide HPLC-MS/MS has been available since 2015, mostly in reference laboratories.

Objectives

Here, we present method improvements to our original published method leading to a more efficient, robust, and high throughput tryptic peptide HPLC-MS/MS assay for infliximab quantitation.

Methods

Deidentified residual serum samples submitted for clinical testing were used for method comparison and infliximab was spiked into normal human serum for performance studies. Improvements included the addition of a stable isotope labeled full length infliximab internal standard (IS) replacing a surrogate IS, and immunoenrichment using Melon Gel for immunoglobulins replacing the saturated ammonium sulfate precipitation. Digestion and chromatography were optimized, and automation was added. The method improvements were validated to include precision, accuracy, reportable range, linearity, and analytical sensitivity.

Results

The digestion time was reduced from overnight to 1 h. The assay analytical measuring range (AMR) remained the same throughout improvements, 1–100 µg/mL, with linearity of 0.98x + 0.50, R² = 1.00. Intra- and inter-assay imprecision were less than 5 % CV at four different concentrations. Accuracy was assessed with 106 patients within the AMR; Passing-Bablok Regression yielded a slope of 1.00 and a y-intercept of 0.25. Turnaround time was reduced by 1 day, and imprecision of three levels of quality control trended down after new method implementation.