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基于半胱胺修饰表面用于临床相关水平 S100B 定量的电化学免疫传感器

Electrochemical Immunosensor for the Quantification of S100B at Clinically Relevant Levels Using a Cysteamine Modified Surface.

机构信息

Biotechnology Research Group, Universidad del Norte, Barranquilla 081007, Colombia.

Rational Use of Energy and Preservation of the Environment Group (UREMA), Universidad del Norte, Barranquilla 081007, Colombia.

出版信息

Sensors (Basel). 2021 Mar 10;21(6):1929. doi: 10.3390/s21061929.

DOI:10.3390/s21061929
PMID:33801798
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8001999/
Abstract

Neuronal damage secondary to traumatic brain injury (TBI) is a rapidly evolving condition, which requires therapeutic decisions based on the timely identification of clinical deterioration. Changes in S100B biomarker levels are associated with TBI severity and patient outcome. The S100B quantification is often difficult since standard immunoassays are time-consuming, costly, and require extensive expertise. A zero-length cross-linking approach on a cysteamine self-assembled monolayer (SAM) was performed to immobilize anti-S100B monoclonal antibodies onto both planar (AuEs) and interdigitated (AuIDEs) gold electrodes via carbonyl-bond. Surface characterization was performed by atomic force microscopy (AFM) and specular-reflectance FTIR for each functionalization step. Biosensor response was studied using the change in charge-transfer resistance (Rct) from electrochemical impedance spectroscopy (EIS) in potassium ferrocyanide, with [S100B] ranging 10-1000 pg/mL. A single-frequency analysis for capacitances was also performed in AuIDEs. Full factorial designs were applied to assess biosensor sensitivity, specificity, and limit-of-detection (LOD). Higher Rct values were found with increased S100B concentration in both platforms. LODs were 18 pg/mL(AuES) and 6 pg/mL(AuIDEs). AuIDEs provide a simpler manufacturing protocol, with reduced fabrication time and possibly costs, simpler electrochemical response analysis, and could be used for single-frequency analysis for monitoring capacitance changes related to S100B levels.

摘要

创伤性脑损伤 (TBI) 导致的神经元损伤是一种快速演变的情况,需要根据临床恶化的及时识别做出治疗决策。S100B 生物标志物水平的变化与 TBI 严重程度和患者预后相关。由于标准免疫测定既费时、昂贵,又需要广泛的专业知识,因此 S100B 的定量通常很困难。在半胱胺自组装单层 (SAM) 上进行零长度交联方法,通过羰基键将抗 S100B 单克隆抗体固定在平面 (AuEs) 和交错 (AuIDEs) 金电极上。通过原子力显微镜 (AFM) 和镜面反射傅里叶变换红外光谱 (FTIR) 对每个功能化步骤进行表面特性表征。使用电化学阻抗谱 (EIS) 中钾亚铁氰化物的电荷转移电阻 (Rct) 的变化来研究生物传感器的响应,[S100B] 的范围为 10-1000 pg/mL。还在 AuIDEs 中进行了单频电容分析。全因子设计用于评估生物传感器的灵敏度、特异性和检测限 (LOD)。在这两种平台中,随着 S100B 浓度的增加,Rct 值都升高。LOD 分别为 18 pg/mL(AuES)和 6 pg/mL(AuIDEs)。AuIDEs 提供了更简单的制造方案,制造时间和成本可能更低,电化学响应分析更简单,并且可用于单频分析,以监测与 S100B 水平相关的电容变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a4ac/8001999/23e0df9816b8/sensors-21-01929-g011.jpg
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