Department of Laboratory Diagnostics, University Hospital Centre Zagreb, Zagreb, Croatia.
Salzer Polyclinic, Zagreb, Croatia.
Biochem Med (Zagreb). 2022 Oct 1;32(3):030701. doi: 10.11613/BM.2022.030703. Epub 2022 Aug 5.
Due to limitations in currently used methodologies, the widely acknowledged approach for quantifying M-protein (MP) is not available. If employed as a source of quantitative data, the immunosubtraction electropherogram (IS-EPG), a qualitative analysis of MP, has the potential to overcome known analytical issues. The aim of this study is to explore measured and derived variables obtained from immunosubtraction electropherogram as a tool for quantifying MP and to compare the derived results to currently available methods.
Measurands were amplitudes of MP and albumin fractions. Assessed derived variables included also immunoglobulin (Ig) G, IgA, IgM and total protein data. Capillary electrophoresis was used for determination of MP (in % of total protein concentration, or concentration of MP in g/L) by perpendicular drop and tangent skimming method.
Passing-Bablok analysis showed the most comparable results in D1Ig and D1nIg variables, and the largest discrepancies in AD1nIg and AD2nIg variables. The background presence had greater impact on D1nIg comparison results than did on D1Ig results. The contribution of albumin fraction data did not improve the comparability of the results. The coefficients of variation of derived variables were lower (maximum 3.1%) than those obtained by densitometric measurements, regardless of MP concentration, polyclonal background, or migration pattern (2.3-37.7%).
The amplitude of MP spike in IS-EPG is an valuable measurand to compute derived variables for quantifying MP. The most comparable results were achieved with the D1Ig variable. Patients with monoclonal gammopathy can benefit from increased precision employing an objective and background independent measurand, especially during longitudinal follow-up.
由于目前使用的方法学存在局限性,因此无法采用广泛认可的方法来量化 M 蛋白 (MP)。如果将免疫吸附电泳图(IS-EPG)用作定量数据的来源,这种 M 蛋白的定性分析有可能克服已知的分析问题。本研究旨在探讨从免疫吸附电泳图中获得的测量值和导出变量,作为量化 MP 的工具,并将导出结果与现有的方法进行比较。
测量值为 MP 和白蛋白分数的幅度。评估的导出变量还包括免疫球蛋白 (Ig) G、IgA、IgM 和总蛋白数据。通过垂直滴落和切线刮削法,使用毛细管电泳法测定 MP(以总蛋白浓度的百分比表示,或以 g/L 表示的 MP 浓度)。
通过 Passing-Bablok 分析,D1Ig 和 D1nIg 变量的结果最为可比,而 AD1nIg 和 AD2nIg 变量的结果差异最大。背景存在对 D1nIg 比较结果的影响大于对 D1Ig 结果的影响。白蛋白分数数据的贡献并不能提高结果的可比性。无论 MP 浓度、多克隆背景或迁移模式如何(2.3-37.7%),导出变量的变异系数都低于密度测量值(最高 3.1%)。
IS-EPG 中的 MP 峰幅度是计算用于量化 MP 的导出变量的有价值的测量值。D1Ig 变量可获得最可比的结果。患有单克隆丙种球蛋白病的患者可以从使用客观且不受背景影响的测量值来提高精确度中受益,尤其是在纵向随访期间。
