Department of Mechanical Engineering, Johns Hopkins University, Baltimore, MD, 21218, USA.
Instituto per la Microelettronica e i Microsistemi, Consiglio Nazionale delle Ricerche, Roma, 00133, Italy.
Adv Healthc Mater. 2021 Feb;10(3):e2001110. doi: 10.1002/adhm.202001110. Epub 2020 Nov 25.
Glycated albumin (GA) is rapidly emerging as a robust biomarker for screening and monitoring of diabetes. To facilitate its rapid, point-of-care measurements, a label-free surface-enhanced Raman spectroscopy (SERS) sensing platform is reported that leverages the specificity of molecular vibrations and signal amplification on silver-coated silicon nanowires (Ag/SiNWs) for highly sensitive and reproducible quantification of GA. The simulations and experimental measurements demonstrate that the disordered orientation of the nanowires coupled with the wicking of the analyte molecules during the process of solvent evaporation facilitates molecular trapping at the generated plasmonic hotspots. Highly sensitive detection of glycated albumin is shown with the ability to visually detect spectral features at as low as 500 × 10 m, significantly below the physiological range of GA in body fluids. Combined with chemometric regression models, the spectral data recorded on the Ag/SiNWs also allow accurate prediction of glycated concentration in mixtures of glycated and non-glycated albumin in proportions that reflect those in the bloodstream.
糖化白蛋白(GA)作为一种用于筛查和监测糖尿病的强大生物标志物,正在迅速崭露头角。为了促进其快速的即时检测,本研究报告了一种无标记的表面增强拉曼光谱(SERS)传感平台,该平台利用银涂覆硅纳米线(Ag/SiNWs)上分子振动的特异性和信号放大,实现了对 GA 的高度敏感和可重现的定量。模拟和实验测量表明,纳米线的无序取向以及在溶剂蒸发过程中分析物分子的虹吸作用,有利于在产生的等离子体热点处捕获分子。研究结果表明,该平台能够以 500×10 m 的低浓度可视化检测到光谱特征,显著低于体液中 GA 的生理范围。结合化学计量回归模型,Ag/SiNWs 上记录的光谱数据还可以准确预测混合 GA 和非 GA 白蛋白混合物中的 GA 浓度,其比例反映了血液中的比例。
