Zeolite nanomaterial-modified dielectrode oxide surface for diagnosing Alzheimer’s disease by dual molecular probed impedance sensor

Zhengguo Qiu, Xiaqing Zhang, Ni Jia, Xu Li, Rui Li, S. Gopinath, Mingna Jiao
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Abstract

Abstract Objectives Alzheimer’s disease (AD) is an irreversible and progressive neurogenerative disorder, which affects the learning part of brain. It mainly affects the aged population and becoming a global health issue, expecting to increase more in near future. Late diagnosis of AD worsens the situation and difficult to treat the patient. Various biosensing techniques with suitable biomarkers have been developed by researchers to diagnose the earlier stages of AD. Methods This research was focused to develop a highly sensitive zeolite-dual probe-modified impedance biosensor for identifying AD biomarker, Aβ Oligomer (AβO). The sensing surface was initially modified with zeolite through the chemical linker and then a dual probe of anti-AβO aptamer and anti-AβO antibody were attached to the surface of the zeolite. Results On these dual probe-modified surfaces, AβO was quantified to diagnose AD. Further, AβO spiked artificial CSF was identified by dual probes without any interference, indicating the selective identification of AβO. In addition, control experiments with non-immune, complementary, and control proteins failed to show the increment of responses, confirming the specific detection of AβO. Conclusions This zeolite-dual probe-modified biosensor helps to lower the limit of detection to 0.1 pM and diagnose AD at the earlier stages.
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通过双分子探针阻抗传感器诊断阿尔茨海默病的沸石纳米材料修饰氧化电极表面
摘要目的阿尔茨海默病(Alzheimer 's disease, AD)是一种不可逆的进行性神经退行性疾病,主要影响大脑的学习部分。它主要影响老年人口,并成为一个全球性的健康问题,预计在不久的将来会增加。阿尔茨海默病的晚期诊断使病情恶化,治疗困难。研究人员开发了各种具有合适生物标志物的生物传感技术来诊断AD的早期阶段。方法采用高灵敏度的沸石双探针修饰阻抗生物传感器,对AD生物标志物a β低聚物(a β o)进行检测。首先用沸石通过化学连接剂修饰传感表面,然后将抗a β o适配体和抗a β o抗体双探针附着在沸石表面。结果在这些双探针修饰的表面上,定量测定了AβO以诊断AD。此外,双探针无干扰地鉴定了AβO加标人工脑脊液,表明了AβO的选择性鉴定。此外,非免疫蛋白、互补蛋白和对照蛋白的对照实验均未显示出应答的增加,证实了AβO的特异性检测。结论这种沸石双探针修饰的生物传感器可以将检测限降低到0.1 pM,有助于早期诊断AD。
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