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In Journal of medical Internet research ; h5-index 88.0

BACKGROUND : The global burden of influenza is substantial. It is a major disease that causes annual epidemics and occasionally, pandemics. Given that influenza primarily infects the upper respiratory system, it may be possible to diagnose influenza infection by applying deep learning to pharyngeal images.

OBJECTIVE : We aimed to develop a deep learning model to diagnose influenza infection using pharyngeal images and clinical information.

METHODS : We recruited patients who visited clinics and hospitals because of influenza-like symptoms. In the training stage, we developed a diagnostic prediction artificial intelligence (AI) model based on deep learning to predict polymerase chain reaction (PCR)-confirmed influenza from pharyngeal images and clinical information. In the validation stage, we assessed the diagnostic performance of the AI model. In additional analysis, we compared the diagnostic performance of the AI model with that of three physicians and interpreted the AI model using importance heatmaps.

RESULTS : We enrolled a total of 7,831 patients at 64 hospitals between Nov 1, 2019 and Jan 21, 2020 in the training stage and 659 patients (including 196 patients with PCR-confirmed influenza) at 11 hospitals between Jan 25, 2020 and Mar 13, 2020 in the validation stage. The area under the receiver operating characteristic curve for the AI model was 0.90 (95% confidence interval, 0.87-0.93), and its sensitivity and specificity were 76% (70%-82%) and 88% (85%-91%), respectively, outperforming three physicians. In the importance heatmaps, the AI model often focused on follicles on the posterior pharyngeal wall.

CONCLUSIONS : We developed the first AI model that can accurately diagnose influenza from pharyngeal images, which has the potential to help physicians to make a timely diagnosis.

CLINICALTRIAL :

Okiyama Sho, Fukuda Memori, Sode Masashi, Takahashi Wataru, Ikeda Masahiro, Kato Hiroaki, Tsugawa Yusuke, Iwagami Masao

2022-Oct-31