Comparison of AI-integrated pathways with human-AI interaction in population mammographic screening for breast cancer

Helen M. L. Frazer; Carlos A. Peña-Solorzano; Chun Fung Kwok; Michael S. Elliott; Yuanhong Chen; Chong Wang; The BRAIx Team; Jocelyn F. Lippey; John L. Hopper; Peter Brotchie; Gustavo Carneiro; Davis J. McCarthy

doi:10.1038/s41467-024-51725-8

Nature Communications (Aug 2024)

Comparison of AI-integrated pathways with human-AI interaction in population mammographic screening for breast cancer

Helen M. L. Frazer,
Carlos A. Peña-Solorzano,
Chun Fung Kwok,
Michael S. Elliott,
Yuanhong Chen,
Chong Wang,
The BRAIx Team,
Jocelyn F. Lippey,
John L. Hopper,
Peter Brotchie,
Gustavo Carneiro,
Davis J. McCarthy

Affiliations

Helen M. L. Frazer: St Vincent’s BreastScreen, St Vincent’s Hospital Melbourne
Carlos A. Peña-Solorzano: Bioinformatics and Cellular Genomics Unit, St Vincent’s Institute of Medical Research
Chun Fung Kwok: Bioinformatics and Cellular Genomics Unit, St Vincent’s Institute of Medical Research
Michael S. Elliott: Bioinformatics and Cellular Genomics Unit, St Vincent’s Institute of Medical Research
Yuanhong Chen: School of Computer Science, Australian Institute for Machine Learning, University of Adelaide
Chong Wang: School of Computer Science, Australian Institute for Machine Learning, University of Adelaide
The BRAIx Team
Jocelyn F. Lippey: St Vincent’s BreastScreen, St Vincent’s Hospital Melbourne
John L. Hopper: Centre for Epidemiology & Biostatistics, Melbourne School of Population and Global Health, University of Melbourne
Peter Brotchie: Department of Radiology, St Vincent’s Hospital Melbourne
Gustavo Carneiro: School of Computer Science, Australian Institute for Machine Learning, University of Adelaide
Davis J. McCarthy: Bioinformatics and Cellular Genomics Unit, St Vincent’s Institute of Medical Research

DOI: https://doi.org/10.1038/s41467-024-51725-8
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Artificial intelligence (AI) readers of mammograms compare favourably to individual radiologists in detecting breast cancer. However, AI readers cannot perform at the level of multi-reader systems used by screening programs in countries such as Australia, Sweden, and the UK. Therefore, implementation demands human-AI collaboration. Here, we use a large, high-quality retrospective mammography dataset from Victoria, Australia to conduct detailed simulations of five potential AI-integrated screening pathways, and examine human-AI interaction effects to explore automation bias. Operating an AI reader as a second reader or as a high confidence filter improves current screening outcomes by 1.9–2.5% in sensitivity and up to 0.6% in specificity, achieving 4.6–10.9% reduction in assessments and 48–80.7% reduction in human reads. Automation bias degrades performance in multi-reader settings but improves it for single-readers. This study provides insight into feasible approaches for AI-integrated screening pathways and prospective studies necessary prior to clinical adoption.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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