利用自动化学发光平台评估分析前脑脊液处理和储存因素对 Aβ1-42、Aβ1-40 和 pTau181 测量的影响

IF 1.8 Q3 MEDICAL LABORATORY TECHNOLOGY
Sara Ho, Jacqueline Darrow, Francesca De Simone, Amanda Calabro, Sara Gannon, Rianne Esquivel, Parmi Thakker, Kristina Khingelova, Aruna Rao, Yifan Zhang, Abhay Moghekar
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引用次数: 0

摘要

背景:脑脊液(CSF)实验室规范的标准化将提高新型阿尔茨海默病(AD)疗法处方所需的临床生物标志物检测的可靠性和可用性。本研究评估了分析前处理和储存β-淀粉样蛋白1-42(Aβ1-42)、β-淀粉样蛋白1-40(Aβ1-40)和磷酸化tau(pTau181)浓度的几个常见因素,包括在不同温度下储存、延长瓶盖接触时间、各种混合方法和多次冻融循环:方法:使用 LUMIPULSE G1200 自动分析仪测量 Aβ1-42、Aβ1-40 和 pTau181 的浓度。样品收集于不同容量的聚丙烯试管中。通过将样品直立或倒置在 4°C 下保存 1 周或 -80°C 下保存 1 个月来评估样品盖接触情况。为了评估混合方法,在化验取样前将样品冻融并通过倒置、涡流、水平滚筒或不混合进行混合。通过冷冻、解冻和分析 CSF 样品来评估连续冻融循环的影响:结果:4°C的短期储存不会影响任何管型中Aβ1-42、Aβ1-40或pTau181的测量。试管盖接触会影响 2.5 mL 试管中的 Aβ1-42 和 10 mL 试管中的 pTau181 水平。混合方法之间没有差异。经过 4 次冻融循环后,Aβ1-42 显著下降,但 Aβ1-40 保持不变。利用 Aβ1-42/Aβ1-40 比值,Aβ1-42 值趋于正常,比值保持在基线测量值的±5%范围内:将 CSF 在 4°C 下储存 1 周或在 -80°C 下储存 1 个月不会对 Aβ1-42、Aβ1-40、pTau181 或相关比值测量产生显著影响。在较大的试管中,管帽接触会影响 pTau181 和 pTau181/Aβ1-42 值。混合方法相同。Aβ1-42/Aβ1-40 比率可补偿冻融变化,最多可补偿 4 个周期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of Preanalytical Cerebrospinal Fluid Handling and Storage Factors on Measurement of Aβ1-42, Aβ1-40, and pTau181 Using an Automated Chemiluminescent Platform.

Background: Standardizing cerebrospinal fluid (CSF) laboratory protocols will improve the reliability and availability of clinical biomarker testing required for prescription of novel Alzheimer disease (AD) therapies. This study evaluated several preanalytical handling and storage factors common to β-amyloid1-42 (Aβ1-42), β-amyloid1-40 (Aβ1-40), and phosphorylated tau (pTau181) concentrations including storage at different temperatures, extended cap contact, various mixing methods, and multiple freeze-thaw cycles.

Methods: Aβ1-42, Aβ1-40, and pTau181 concentrations were measured using LUMIPULSE G1200 automated assays. Samples were collected in polypropylene tubes of various volumes. Sample cap-contact was evaluated by storing samples in upright and inverted positions at either 4°C for 1 week or -80°C for 1 month. To assess mixing methods, samples were freeze-thawed and mixed by inversion, vortex, horizontal roller, or unmixed prior to assay sampling. The impact of successive freeze-thaw cycles was assessed through freezing, thawing, and analyzing CSF samples.

Results: Short-term storage at 4°C did not affect Aβ1-42, Aβ1-40, or pTau181 measurements in any tube type. Tube cap contact affected Aβ1-42 in 2.5 mL tubes and pTau181 levels in 10 mL tubes. No difference was observed between mixing methods. After 4 freeze-thaw cycles, Aβ1-42 significantly decreased but Aβ1-40 remained unchanged. Utilizing the Aβ1-42/Aβ1-40 ratio, Aβ1-42 values normalized, maintaining ratio values within ±5% of baseline measurements.

Conclusions: Storage of CSF at 4°C for 1 week or -80°C for 1 month did not significantly affect Aβ1-42, Aβ1-40, pTau181, or associated ratio measurements. Tube cap-contact impacted pTau181 and pTau181/Aβ1-42 values in larger tubes. Mixing methods are equivalent. The Aβ1-42/Aβ1-40 ratio compensates for freeze-thaw variability up to 4 cycles.

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来源期刊
Journal of Applied Laboratory Medicine
Journal of Applied Laboratory Medicine MEDICAL LABORATORY TECHNOLOGY-
CiteScore
3.70
自引率
5.00%
发文量
137
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