Explainable artificial intelligence model for the detection of geographic atrophy using colour retinal photographs

Sarao, Valentina; Veritti, Daniele; De Nardin, Axel; Misciagna, Micaela; Foresti, Gianluca; Lanzetta, Paolo

doi:10.1136/bmjophth-2023-001411

BMJ Open Ophth

2023

DOI: 10.1136/bmjophth-2023-001411

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Explainable artificial intelligence model for the detection of geographic atrophy using colour retinal photographs

Valentina Sarao,

Daniele Veritti,

Axel De Nardin

et al.

Abstract: ObjectiveTo develop and validate an explainable artificial intelligence (AI) model for detecting geographic atrophy (GA) via colour retinal photographs.Methods and analysisWe conducted a prospective study where colour fundus images were collected from healthy individuals and patients with retinal diseases using an automated imaging system. All images were categorised into three classes: healthy, GA and other retinal diseases, by two experienced retinologists. Simultaneously, an explainable learning model using… Show more

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2024

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Cited by 3 publications

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Use of explainable AI on slit-lamp images of anterior surface of eyes to diagnose allergic conjunctival diseases

Yonehara,

Nakagawa,

Ayatsuka

et al. 2024

Allergology International

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Use of explainable AI on slit-lamp images of anterior surface of eyes to diagnose allergic conjunctival diseases

Yonehara,

Nakagawa,

Ayatsuka

et al. 2024

Allergology International

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Empowering Portable Age-Related Macular Degeneration Screening: Evaluation of a Deep Learning Algorithm for a Smartphone Fundus Camera

Savoy,

Rao,

Toh

et al. 2024

BMJ Open

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ObjectivesDespite global research on early detection of age-related macular degeneration (AMD), not enough is being done for large-scale screening. Automated analysis of retinal images captured via smartphone presents a potential solution; however, to our knowledge, such an artificial intelligence (AI) system has not been evaluated. The study aimed to assess the performance of an AI algorithm in detecting referable AMD on images captured on a portable fundus camera.Design, settingA retrospective image database from the Age-Related Eye Disease Study (AREDS) and target device was used.ParticipantsThe algorithm was trained on two distinct data sets with macula-centric images: initially on 108,251 images (55% referable AMD) from AREDS and then fine-tuned on 1108 images (33% referable AMD) captured on Asian eyes using the target device. The model was designed to indicate the presence of referable AMD (intermediate and advanced AMD). Following the first training step, the test set consisted of 909 images (49% referable AMD). For the fine-tuning step, the test set consisted of 238 (34% referable AMD) images. The reference standard for the AREDS data set was fundus image grading by the central reading centre, and for the target device, it was consensus image grading by specialists.Outcome measuresArea under receiver operating curve (AUC), sensitivity and specificity of algorithm.ResultsBefore fine-tuning, the deep learning (DL) algorithm exhibited a test set (from AREDS) sensitivity of 93.48% (95% CI: 90.8% to 95.6%), specificity of 82.33% (95% CI: 78.6% to 85.7%) and AUC of 0.965 (95% CI:0.95 to 0.98). After fine-tuning, the DL algorithm displayed a test set (from the target device) sensitivity of 91.25% (95% CI: 82.8% to 96.4%), specificity of 84.18% (95% CI: 77.5% to 89.5%) and AUC 0.947 (95% CI: 0.911 to 0.982).ConclusionThe DL algorithm shows promising results in detecting referable AMD from a portable smartphone-based imaging system. This approach can potentially bring effective and affordable AMD screening to underserved areas.

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Discriminative, generative artificial intelligence, and foundation models in retina imaging

Ruamviboonsuk,

Arjkongharn,

Vongsa

et al. 2024

Taiwan Journal of Ophthalmology

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Recent advances of artificial intelligence (AI) in retinal imaging found its application in two major categories: discriminative and generative AI. For discriminative tasks, conventional convolutional neural networks (CNNs) are still major AI techniques. Vision transformers (ViT), inspired by the transformer architecture in natural language processing, has emerged as useful techniques for discriminating retinal images. ViT can attain excellent results when pretrained at sufficient scale and transferred to specific tasks with fewer images, compared to conventional CNN. Many studies found better performance of ViT, compared to CNN, for common tasks such as diabetic retinopathy screening on color fundus photographs (CFP) and segmentation of retinal fluid on optical coherence tomography (OCT) images. Generative Adversarial Network (GAN) is the main AI technique in generative AI in retinal imaging. Novel images generated by GAN can be applied for training AI models in imbalanced or inadequate datasets. Foundation models are also recent advances in retinal imaging. They are pretrained with huge datasets, such as millions of CFP and OCT images and fine-tuned for downstream tasks with much smaller datasets. A foundation model, RETFound, which was self-supervised and found to discriminate many eye and systemic diseases better than supervised models. Large language models are foundation models that may be applied for text-related tasks, like reports of retinal angiography. Whereas AI technology moves forward fast, real-world use of AI models moves slowly, making the gap between development and deployment even wider. Strong evidence showing AI models can prevent visual loss may be required to close this gap.

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Explainable artificial intelligence model for the detection of geographic atrophy using colour retinal photographs

Cited by 3 publications

References 22 publications

Use of explainable AI on slit-lamp images of anterior surface of eyes to diagnose allergic conjunctival diseases

Use of explainable AI on slit-lamp images of anterior surface of eyes to diagnose allergic conjunctival diseases

Empowering Portable Age-Related Macular Degeneration Screening: Evaluation of a Deep Learning Algorithm for a Smartphone Fundus Camera

Discriminative, generative artificial intelligence, and foundation models in retina imaging

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