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. 2023 Apr 1;13(1):5368.
doi: 10.1038/s41598-023-31921-0.

Evaluating the generalizability of deep learning image classification algorithms to detect middle ear disease using otoscopy

Al-Rahim Habib  1   2 Yixi Xu  3 Kris Bock  4 Shrestha Mohanty  5 Tina Sederholm  3 William B Weeks  3 Rahul Dodhia  3 Juan Lavista Ferres  3 Chris Perry  6 Raymond Sacks  7 Narinder Singh  7   8
Affiliations

Evaluating the generalizability of deep learning image classification algorithms to detect middle ear disease using otoscopy

Al-Rahim Habib et al. Sci Rep. .

Abstract

To evaluate the generalizability of artificial intelligence (AI) algorithms that use deep learning methods to identify middle ear disease from otoscopic images, between internal to external performance. 1842 otoscopic images were collected from three independent sources: (a) Van, Turkey, (b) Santiago, Chile, and (c) Ohio, USA. Diagnostic categories consisted of (i) normal or (ii) abnormal. Deep learning methods were used to develop models to evaluate internal and external performance, using area under the curve (AUC) estimates. A pooled assessment was performed by combining all cohorts together with fivefold cross validation. AI-otoscopy algorithms achieved high internal performance (mean AUC: 0.95, 95%CI: 0.80-1.00). However, performance was reduced when tested on external otoscopic images not used for training (mean AUC: 0.76, 95%CI: 0.61-0.91). Overall, external performance was significantly lower than internal performance (mean difference in AUC: -0.19, p ≤ 0.04). Combining cohorts achieved a substantial pooled performance (AUC: 0.96, standard error: 0.01). Internally applied algorithms for otoscopy performed well to identify middle ear disease from otoscopy images. However, external performance was reduced when applied to new test cohorts. Further efforts are required to explore data augmentation and pre-processing techniques that might improve external performance and develop a robust, generalizable algorithm for real-world clinical applications.

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Conflict of interest statement

A-RH discloses research funding from the Garnett Passe and Rodney Williams Memorial Foundation, Microsoft’s AI for Humanitarian Action grant, and the Avant Mutual Foundation Doctor-in-Training and Early Career research grants. CP discloses conflict of interest from Australian Medical Association (Queensland) and provides consulting services for the Deadly Ears Program. RS is a consultant for Medtronic. NS discloses research funding from Microsoft’s AI for Humanitarian Action grant, consultant for ResMed, Optinose, Nasus, GSK, and ENT Technologies, and has received conference funding from Medtronic, Karl Storz, and NeilMed. YX, KB, SM, TS, RD, and JLF are affiliated with the AI for Good Research Lab.

Figures

Figure 1
Figure 1
Flow chart of proposed study design.
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