An Automated pre-Dilution Setup for Von Willebrand Factor Activity Assays.

IF 1 Q3 BIOLOGY Bio-protocol Pub Date : 2024-09-05 DOI:10.21769/BioProtoc.5059
Tobias Schachinger, Ann-Katrin Holik, Gerald Schrenk, Herbert Gritsch, Stefan Hofbauer, Paul G Furtmüller, Peter L Turecek
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Abstract

Accurate quantification of von Willebrand factor ristocetin cofactor activity (VWF:RCo) is critical for the diagnosis and classification of von Willebrand disease, the most common hereditary and acquired bleeding disorder in humans. Moreover, it is important to accurately assess the function of von Willebrand factor (VWF) concentrates within the pharmaceutical industry to provide consistent and high-quality biopharmaceuticals. Although the performance of VWF:RCo assay has been improved by using coagulation analyzers, which are specialized devices for blood and blood plasma samples, scientists still report a high degree of intra- and inter-assay variation in clinical laboratories. Moreover, high, manual sample dilutions are required for VWF:RCo determination of VWF concentrates within the pharmaceutical industry, which are a major source for assay imprecision. For the first time, we present a precise and accurate method to determine VWF:RCo, where all critical pipetting and mixing steps are automated. A pre-dilution setup was established on CyBio FeliX (Analytik-Jena) liquid handling system, and an adapted VWF:RCo method on BCS-XP analyzer (Siemens) is used. The automated pre-dilution method was executed on three different, most frequently used coagulation analyzers and compared to manual pre-dilutions performed by an experienced operator. Comparative sample testing revealed a similar assay precision (coefficient of variation = 5.9% automated, 3.1% manual pre-dilution) and no significant differences between the automated approach and manual dilutions of an expert in this method. While no outliers were generated with the automated procedure, the manual pre-dilution resulted in an error rate of 8.3%. Overall, this operator-independent protocol enables standardization and offers an efficient way of fully automating VWF activity assays, while maintaining the precision and accuracy of an expert analyst. Key features • Automated pre-dilution setup for von Willebrand factor concentrates of various natures. • Combination of a liquid handling system (CyBio FeliX) with a coagulation analyzer (BCS-XP). • Simplifies method transfer to other laboratories. • Basic training for CyBio FeliX and BCS-XP is required. Graphical overview VWF:RCo assay principle and measurement setup. Platelets (yellow ellipsoids) with negative surface charge (- - -) are treated with formaldehyde, which partly denatures the cell surface and thus stabilizes platelets for use as assay reagents. Stabilized platelets (dark-yellow-framed yellow ellipsoids) are then brought in contact with ristocetin A (chemical structure shown; black dots), which binds to the platelet surface and facilitates binding of VWF (green circles). The graphs show an example of quantitative determination of platelet agglutination by measurement of light transmission, where increasing amounts of VWF increase light transmission over time. The photo in the left-bottom corner shows the CyBio FeliX setup for VWF sample dilution and the photo in the right-bottom corner displays the BCS-XP system, which is used for VWF:RCo measurements.

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用于冯-威廉因子活性测定的自动预稀释设置。
冯-维勒布兰德因子里斯托西汀辅因子活性(VWF:RCo)的精确定量对于冯-维勒布兰德病(人类最常见的遗传性和获得性出血性疾病)的诊断和分类至关重要。此外,在制药业中准确评估冯-威廉因子(VWF)浓缩物的功能对于提供一致的高质量生物制药也非常重要。尽管使用凝血分析仪(血液和血浆样本的专用设备)提高了 VWF:RCo 检测的性能,但科学家们仍报告称,临床实验室的检测内部和检测之间仍存在很大差异。此外,在制药行业测定 VWF:RCo 浓缩物时,需要对样品进行大量人工稀释,这也是造成测定不精确的一个主要原因。我们首次提出了精确测定 VWF:RCo 的方法,其中所有关键的移液和混合步骤都是自动化的。我们在 CyBio FeliX(Analytik-Jena)液体处理系统上建立了预稀释设置,并在 BCS-XP 分析仪(西门子)上使用了经过调整的 VWF:RCo 方法。自动预稀释法在三种不同的、最常用的凝血分析仪上执行,并与由经验丰富的操作员执行的手动预稀释法进行了比较。对比样本测试显示,检测精度相似(变异系数=5.9%自动预稀释,3.1%手动预稀释),自动方法与专家手动稀释方法之间没有显著差异。虽然自动程序没有产生异常值,但人工预稀释的错误率为 8.3%。总之,这种独立于操作人员的方案实现了标准化,为全自动 VWF 活性测定提供了一种有效的方法,同时保持了专家分析师的精确度和准确性。主要特点 - 对各种性质的冯-威廉因子浓缩物进行自动预稀释设置。- 液体处理系统(CyBio FeliX)与凝血分析仪(BCS-XP)相结合。- 简化了向其他实验室转移方法的过程。- 需要对 CyBio FeliX 和 BCS-XP 进行基本培训。图解概述 VWF:RCo 检测原理和测量设置。用甲醛处理表面带负电荷(- - -)的血小板(黄色椭圆体),使细胞表面部分变性,从而稳定血小板,以便用作检测试剂。然后将稳定的血小板(深黄色框内的黄色椭圆体)与利斯托西汀 A(化学结构如图所示;黑点)接触,利斯托西汀 A 会与血小板表面结合,促进 VWF(绿色圆圈)的结合。图中显示的是通过测量透光率来定量测定血小板凝集的例子,其中 VWF 的数量随着时间的推移不断增加,透光率也随之增加。左下角的照片显示了用于稀释 VWF 样品的 CyBio FeliX 设置,右下角的照片显示了用于测量 VWF:RCo 的 BCS-XP 系统。
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