Evaluation of low volume sampling devices for a pharmacodynamic biomarker analysis: Challenges and solutions

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Xiaoyun Yang , Evelin Logis , Kathi Williams , X. Rebecca Sheng , Saloumeh K. Fischer
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Abstract

Low volume sampling technologies have gained popularity as they are minimally invasive, reduce patient burden, enhance population diversity, and have the potential to facilitate decentralized clinical trials. Herein, we validated a Gyrolab assay to measure soluble Mucosal Addressin Cell Adhesion Molecule 1 (sMAdCAM-1) in dried blood samples collected using two low volume sampling devices, Mitra and Tasso-M20. This validated assay was implemented in a proof-of-concept study to compare three low volume sampling devices (Mitra, Tasso-M20 and TassoOne Plus) with serum collected via venipuncture from healthy volunteers receiving etrolizumab. We observed significantly higher concentration of sMAdCAM-1 in dried blood samples collected using Mitra and Tasso-M20 compared to serum in some paired samples, which was attributed to interference from the dried blood extraction buffer. To mitigate this interference, samples required substantial dilution into the appropriate buffer, which negatively impacted the detectability of sMAdCAM-1 with the Gyrolab assay. By employing the Quanterix single molecule array (Simoa), known for its superior assay sensitivity, the interference was minimized in the diluted samples. Both liquid blood collected in TassoOne Plus and dried blood collected using Mitra and Tasso-M20 demonstrated great concordance with serum for sMAdCAM-1 measurement. However, a bias was observed in Mitra dried blood samples, presumably due to the different sample collection sites in comparison with venipuncture and Tasso devices. Our study highlights the potential of low volume sampling technologies for biomarker analysis, and underscores the importance of understanding the challenges and limitations of these technologies before integrating them into clinical studies.

评估用于药效生物标记分析的低容量采样设备:挑战与解决方案
低容量采样技术具有微创、减轻患者负担、提高人群多样性以及促进分散临床试验的潜力等优点,因此越来越受欢迎。在此,我们验证了一种 Gyrolab 检测方法,该方法可测量使用 Mitra 和 Tasso-M20 两种低容量采样设备采集的干血样中的可溶性粘膜地址细胞粘附分子 1 (sMAdCAM-1)。在一项概念验证研究中采用了这种经过验证的检测方法,将三种低容量采样设备(Mitra、Tasso-M20 和 TassoOne Plus)与通过静脉穿刺从接受依托珠单抗治疗的健康志愿者身上采集的血清进行比较。在一些配对样本中,我们观察到使用 Mitra 和 Tasso-M20 采集的干血样本中 sMAdCAM-1 的浓度明显高于血清,这归因于干血提取缓冲液的干扰。为了减轻这种干扰,样本需要在适当的缓冲液中进行大量稀释,这对 Gyrolab 检测法的 sMAdCAM-1 检测能力产生了负面影响。Quanterix单分子阵列(Simoa)以其卓越的检测灵敏度而著称,通过使用该阵列,稀释样本中的干扰降到了最低。使用 TassoOne Plus 采集的液态血液和使用 Mitra 和 Tasso-M20 采集的干血与血清中的 sMAdCAM-1 测量结果非常一致。不过,在 Mitra 干血样本中观察到了偏差,这可能是由于与静脉穿刺和 Tasso 设备相比,样本采集部位不同造成的。我们的研究凸显了低容量采样技术在生物标记物分析中的潜力,并强调了在将这些技术应用于临床研究之前了解其挑战和局限性的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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