通过测量神经元源性细胞外囊泡血浆水平监测脑损伤后。

IF 3.4 Q2 MEDICINE, RESEARCH & EXPERIMENTAL
Biomarker Insights Pub Date : 2022-10-26 eCollection Date: 2022-01-01 DOI:10.1177/11772719221128145
Naoshi Hotta, Takahiro Tadokoro, John Henry, Daisuke Koga, Keisuke Kawata, Hiroyuki Ishida, Yuko Oguma, Akihiro Hirata, Masato Mitsuhashi, Kenji Yoshitani
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引用次数: 0

摘要

背景:神经元向血液中释放的细胞外囊泡(Extracellular vesicles, EV)可以反映神经组织的状态。神经元源性EV (NDE)的测定可作为脑损伤的一种指标。方法:采用抗神经元CD171和抗ev CD9 ([CD171 + CD9+])建立夹心免疫法检测血浆NDE。血浆样本随时间从商业来源、越野(n = 9)、足球(n = 22)、足球(n = 19)和橄榄球(n = 18)运动员中获得。同时收集了36例在体外循环期间行全主动脉弓置换术(TAR)并选择性脑灌注的患者手术前后的血浆。结果:证实了NDE法(测定[CD171 + CD9+])的特异性、线性和重现性。通过扫描电镜和纳米颗粒跟踪,确定了150 ~ 300 nm大小的球形囊泡。在不同的个体中,NDE的血浆水平广泛分布在2至3个log中,并呈明显的年龄依赖性下降。然而,随着时间的推移(越野,足球,足球),每个人的濒死体验都非常稳定,变化在±50%以内,而橄榄球运动员在4年内变化更大。在接受TAR治疗的患者中,NDE在术后数天内迅速增加,发生术后谵妄(POD)的患者(n = 13)的NDE明显高于非谵妄患者(n = 23) (P = 0.0004)。结论:利用2种针对神经元(CD171)和外泌体(CD9)的抗体,采用夹心免疫分析法建立了检测血浆NDE水平的血液检测方法。NDE水平在不同个体中差异很大,并随着年龄的增长而下降,这表明NDE水平应被视为NDE生物标志物研究的正常化指标。然而,每个个体的NDE水平随着时间的推移是稳定的,并且在TAR后迅速增加,与发生POD的患者相关的增加更大。该试验可作为评估和监测脑损伤的替代方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Monitoring of Post-Brain Injuries By Measuring Plasma Levels of Neuron-Derived Extracellular Vesicles.

Monitoring of Post-Brain Injuries By Measuring Plasma Levels of Neuron-Derived Extracellular Vesicles.

Monitoring of Post-Brain Injuries By Measuring Plasma Levels of Neuron-Derived Extracellular Vesicles.

Monitoring of Post-Brain Injuries By Measuring Plasma Levels of Neuron-Derived Extracellular Vesicles.

Background: Extracellular vesicles (EV) released from neurons into the blood can reflect the state of nervous tissue. Measurement of neuron derived EV (NDE) may serve as an indicator of brain injury.

Methods: A sandwich immunoassay was established to measure plasma NDE using anti-neuron CD171 and anti-EV CD9 ([CD171 + CD9+]). Plasma samples were obtained from commercial sources, cross-country (n = 9), football (n = 22), soccer (n = 19), and rugby (n = 18) athletes over time. Plasma was also collected from patients undergoing total aortic arch replacement (TAR) with selective cerebral perfusion during cardiopulmonary bypass before and after surgery (n = 36).

Results: The specificity, linearity, and reproducibility of NDE assay (measurement of [CD171 + CD9+]) were confirmed. By scanning electron microscopy and nanoparticle tracking, spherical vesicles ranging in size from 150 to 300 nm were confirmed. Plasma levels of NDE were widely spread over 2 to 3 logs in different individuals with a significant age-dependent decrease. However, NDE were very stable in each individual within a ± 50% change over time (cross-country, football, soccer), whereas rugby players were more variable over 4 years. In patients undergoing TAR, NDE increased rapidly in days post-surgery and were significantly (P = .0004) higher in those developing postoperative delirium (POD) (n = 13) than non-delirium patients (n = 23).

Conclusions: The blood test to determine plasma levels of NDE was established by a sandwich immunoassay using 2 antibodies against neuron (CD171) and exosomes (CD9). NDE levels varied widely in different individuals and decreased with age, indicating that NDE levels should be considered as a normalizer of NDE biomarker studies. However, NDE levels were stable over time in each individual, and increased rapidly after TAR with greater increases associated with patients developing POD. This assay may serve as a surrogate for evaluating and monitoring brain injuries.

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来源期刊
Biomarker Insights
Biomarker Insights MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
6.00
自引率
0.00%
发文量
26
审稿时长
8 weeks
期刊介绍: An open access, peer reviewed electronic journal that covers all aspects of biomarker research and clinical applications.
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