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Deep learning-enabled point-of-care sensing using multiplexed paper-based sensors

Medicine and Health

Deep learning-enabled point-of-care sensing using multiplexed paper-based sensors

Z. S. Ballard, H. Joung, et al.

Discover an innovative deep learning framework designed by researchers Zachary S. Ballard, Hyou-Arm Joung, Artem Goncharov, Jesse Liang, Karina Nugroho, Dino Di Carlo, Omai B. Garner, and Aydogan Ozcan for high-sensitivity C-reactive protein testing. This low-cost, paper-based vertical flow assay redefines access to cardiovascular disease testing with impressive accuracy and robustness.

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Playback language: English
Abstract
This paper presents a deep learning-based framework for designing and quantifying point-of-care sensors. A low-cost, rapid paper-based vertical flow assay (VFA) for high-sensitivity C-reactive protein (hsCRP) testing is demonstrated. A machine learning framework optimized the immunoreaction spot configuration and accurately inferred analyte concentration. A clinical study with 85 human samples showed a coefficient-of-variation of 11.2% and linearity of R² = 0.95. The system mitigated the hook-effect. This computational VFA expands access to CVD testing, and the framework is broadly applicable to cost-effective, mobile point-of-care sensors.
Publisher
npj Digital Medicine
Published On
May 07, 2020
Authors
Zachary S. Ballard, Hyou-Arm Joung, Artem Goncharov, Jesse Liang, Karina Nugroho, Dino Di Carlo, Omai B. Garner, Aydogan Ozcan
Tags
deep learning
point-of-care sensors
C-reactive protein
vertical flow assay
machine learning
cardiovascular disease
clinical study

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