用于早期检测卵巢癌溶血磷脂酸的纸基分子印迹 SERS 底物

Nazia Tarannum , Deepak Kumar , Akanksha Yadav , Anil K. Yadav
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引用次数: 0

摘要

目前的研究涉及制造基于分子印迹纸的护理点分析设备,特别是与卵巢癌早期检测有关的设备。这项任务涉及制作一种涂有银纳米粒子(AgNPs)的纸,通过表面增强拉曼光谱(SERS)将其用作传感器,以检测作为模板分子的生物标志物溶血磷脂酸(LPA)的阈值水平,从而诊断卵巢癌。MIPs 是为目标分子设计的合成受体,由聚合物在目标分子(如小分子、蛋白质或细胞等)存在的情况下制备而成。去除模板后,就会形成在结构上和静电上与模板分子互补的空腔。分子印迹聚合物(MIP)层锚定在乙烯基三甲氧基硅烷改性纸上,通过乙烯基三甲氧基硅烷对纸表面进行水解改性,使其成为检测器。为了检测卵巢癌血清样本中的 LPA,开发了基于 SERS 的 MIP 纸。良性卵巢肿瘤患者的 LPA 含量为 7.73 μM,而卵巢癌患者的 LPA 含量为 16.99 μM。健康人的 LPA 水平为 2.92 μM。因此,LPA 水平的升高可能有助于早期发现卵巢癌。这项研究是指使用一种护理点设备来早期诊断卵巢癌,它应该是简单、有效和具有成本效益的。研究中的分析工具是一种具有高选择性和高灵敏度、快速检测时间和低成本的传感器。对于血清中的 LPA,改性纸基 MIP 的结合常数从 11.00 μM 到 0.08 μM。将二维纸上的纳米粒子与 MIP 相结合,开发出了一种传感器,可以在未经处理的真实样品(如血清)中有效地选择 LPA。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Paper based molecularly imprinted SERS substrate for early detection of lysophosphatidic acid in ovarian cancer

Paper based molecularly imprinted SERS substrate for early detection of lysophosphatidic acid in ovarian cancer

The current study is related to fabrication of point-of-care molecularly imprinted paper-based analytical devices, specifically related to ovarian cancer early stage detection. The task involves creating a paper coated with silver nanoparticles (AgNPs) that can be used as a transducer via surface enhanced Raman spectroscopy (SERS) to detect the threshold level of the biomarker lysophosphatidic acid (LPA) as a template molecule to diagnose ovarian cancer. MIPs are synthetic receptors designed for a targeted molecule which are prepared from polymers in the presence of target such as small molecules, proteins or cells etc. Removal of the template results in cavities which are structurally and electrostatically complementary to the template molecule. The molecularly imprinted polymer (MIP) layer was anchored on vinyl trimethoxy silane modified-paper, which served as a detector by hydrolytically modifying the paper surface with vinyl trimethoxy silane. To detect LPA in serum samples for ovarian cancer, MIP-paper based on SERS was developed. Patients with benign ovarian tumors had an LPA level of 7.73 μM whereas those with ovarian cancer have a level of 16.99 μM. A healthy person's LPA level is 2.92 μM. Consequently, the rise in LPA levels may aid in the early detection of ovarian cancer. The study refers to the use of a point of care device to diagnose ovarian cancer early, which should be simple, effective, and cost-effective. The analytical tool in the study is a sensor with high selectivity and sensitivity, quick assay times, and inexpensive costs. For LPA in serum, the binding constant of modified paper-based MIP ranges from 11.00 μM to 0.08 μM. The amalgamation of nanoparticles on 2D-paper with MIP have lead to develop sensor which can effectively select LPA in untreated real samples like serum.

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Advances in biomarker sciences and technology
Advances in biomarker sciences and technology Biotechnology, Clinical Biochemistry, Molecular Medicine, Public Health and Health Policy
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