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Sample-to-answer platform for the clinical evaluation of COVID-19 using a deep learning-assisted smartphone-based assay.

Seungmin LeeSunmok KimDae Sung YoonJeong Soo ParkHyowon WooDongho LeeSung-Yeon ChoChulmin ParkYong Kyoung YooKi-Baek LeeJeong Hoon Lee
Published in: Nature communications (2023)
Since many lateral flow assays (LFA) are tested daily, the improvement in accuracy can greatly impact individual patient care and public health. However, current self-testing for COVID-19 detection suffers from low accuracy, mainly due to the LFA sensitivity and reading ambiguities. Here, we present deep learning-assisted smartphone-based LFA (SMART AI -LFA) diagnostics to provide accurate decisions with higher sensitivity. Combining clinical data learning and two-step algorithms enables a cradle-free on-site assay with higher accuracy than the untrained individuals and human experts via blind tests of clinical data (n = 1500). We acquired 98% accuracy across 135 smartphone application-based clinical tests with different users/smartphones. Furthermore, with more low-titer tests, we observed that the accuracy of SMART AI -LFA was maintained at over 99% while there was a significant decrease in human accuracy, indicating the reliable performance of SMART AI -LFA. We envision a smartphone-based SMART AI -LFA that allows continuously enhanced performance by adding clinical tests and satisfies the new criterion for digitalized real-time diagnostics.
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