Dual-Functionalized Glass Micropipette Sensor for Simultaneous High Sensitivity Detection of Cancer Biomarkers
Guofeng Wang, Shiwei Xu, Yueyue Feng, Liying Huang, Yajun Wang, Nannan Liu
Abstract
Early cancer detection is crucial for improving patient survival rates. However, current single-biomarker detection methods often face challenges, such as insufficient sensitivity, poor accuracy, and false positives. To address these issues, we report a dual-functionalized glass micropipet sensor (DFMS) capable of simultaneously detecting two cancer biomarkers, nucleic acids and proteins. The inner surface of the sensor is functionalized with amino-modified silicon nanowires (SiNWs) to capture disease-related miRNAs, enabling ionic-current-based detection, while the outer surface is decorated with gold nanoparticles to anchor specific protein aptamers for Raman-based detection. This dual-functionalization significantly enhances the sensitivity and selectivity by combining ionic current amplification with plasmonic Raman signal enhancement. The sensor achieves detection limits of 1 aM for miRNAs and 0.001 ng/mL for proteins, with minimal mutual interference between the two detection modes, ensuring accurate and independent detection. Validation with prostate cancer biomarkers miRNA-1246 and PSA, as well as gastric cancer biomarkers miRNA-106a and CD44, demonstrates its outstanding sensitivity, selectivity, stability, and broad applicability, providing a novel approach for early cancer detection with significant clinical implications.