深度学习
可靠性(半导体)
人工智能
过程(计算)
计算机科学
特征(语言学)
智能手机应用
微流控
曲线下面积
资源(消歧)
机器学习
模式识别(心理学)
纳米技术
多媒体
生物信息学
材料科学
功率(物理)
语言学
物理
哲学
量子力学
药代动力学
生物
操作系统
计算机网络
作者
Sixuan Duan,Tianyu Cai,Jia Zhu,Xi Yang,Eng Gee Lim,Kaizhu Huang,Kai F. Hoettges,Quan Zhang,Hao Fu,Qiang Guo,Xinyu Liu,Zuming Yang,Pengfei Song
标识
DOI:10.1016/j.aca.2023.340868
摘要
Smartphone has long been considered as one excellent platform for disease screening and diagnosis, especially when combined with microfluidic paper-based analytical devices (μPADs) that feature low cost, ease of use, and pump-free operations. In this paper, we report a deep learning-assisted smartphone platform for ultra-accurate testing of paper-based microfluidic colorimetric enzyme-linked immunosorbent assay (c-ELISA). Different from existing smartphone-based μPAD platforms, whose sensing reliability is suffered from uncontrolled ambient lighting conditions, our platform is able to eliminate those random lighting influences for enhanced sensing accuracy. We first constructed a dataset that contains c-ELISA results (n = 2048) of rabbit IgG as the model target on μPADs under eight controlled lighting conditions. Those images are then used to train four different mainstream deep learning algorithms. By training with these images, the deep learning algorithms can well eliminate the influences of lighting conditions. Among them, the GoogLeNet algorithm gives the highest accuracy (>97%) in quantitative rabbit IgG concentration classification/prediction, which also provides 4% higher area under curve (AUC) value than that of the traditional curve fitting results analysis method. In addition, we fully automate the whole sensing process and achieve the “image in, answer out” to maximize the convenience of the smartphone. A simple and user-friendly smartphone application has been developed that controls the whole process. This newly developed platform further enhances the sensing performance of μPADs for use by laypersons in low-resource areas and can be facilely adapted to the real disease protein biomarkers detection by c-ELISA on μPADs.
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