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Titre: Generalisability of fetal ultrasound deep learning models to low-resource imaging settings in five African countries
Auteur(s): Carla, Sendra-Balcells
Campello, Víctor M.
Torrents-Barrena, Jordina
Ammar, Mohammed
Mots-clés: Artificial Intelligence
Deep Learning
Diagnostic Imaging
Egypt
Female
Humans
Malawi
Pregnancy
Date de publication: 2023
Editeur: Nature Research
Collection/Numéro: Scientific ReportsOpen/ Vol.13, N°1 (2023);pp. 1-10
Résumé: Most artificial intelligence (AI) research and innovations have concentrated in high-income countries, where imaging data, IT infrastructures and clinical expertise are plentiful. However, slower progress has been made in limited-resource environments where medical imaging is needed. For example, in Sub-Saharan Africa, the rate of perinatal mortality is very high due to limited access to antenatal screening. In these countries, AI models could be implemented to help clinicians acquire fetal ultrasound planes for the diagnosis of fetal abnormalities. So far, deep learning models have been proposed to identify standard fetal planes, but there is no evidence of their ability to generalise in centres with low resources, i.e. with limited access to high-end ultrasound equipment and ultrasound data. This work investigates for the first time different strategies to reduce the domain-shift effect arising from a fetal plane classification model trained on one clinical centre with high-resource settings and transferred to a new centre with low-resource settings. To that end, a classifier trained with 1792 patients from Spain is first evaluated on a new centre in Denmark in optimal conditions with 1008 patients and is later optimised to reach the same performance in five African centres (Egypt, Algeria, Uganda, Ghana and Malawi) with 25 patients each. The results show that a transfer learning approach for domain adaptation can be a solution to integrate small-size African samples with existing large-scale databases in developed countries. In particular, the model can be re-aligned and optimised to boost the performance on African populations by increasing the recall to 0.92 ± 0.04 and at the same time maintaining a high precision across centres. This framework shows promise for building new AI models generalisable across clinical centres with limited data acquired in challenging and heterogeneous conditions and calls for further research to develop new solutions for the usability of AI in countries with fewer resources and, consequently, in higher need of clinical support
URI/URL: https://www.nature.com/articles/s41598-023-29490-3
DOI 10.1038/s41598-023-29490-3
http://dlibrary.univ-boumerdes.dz:8080/handle/123456789/11134
ISSN: 20452322
Collection(s) :Publications Internationales

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