AI-based triage and decision support in mammography and digital tomosynthesis for breast cancer screening: a paired, noninferiority trial
Summary
Artificial intelligence (AI) systems have been demonstrated to improve the accuracy of screening mammograms. Here this prospective, paired, noninferiority clinical trial evaluated whether AI could safely reduce workload by excluding low-risk exams from radiologist reading. Between March 2022 and January 2024, 31,301 women were included in the trial and underwent routine mammograms. Two reading strategies were applied in parallel: standard double-blind reading and partially autonomous AI-su
Content
# AI-based triage and decision support in mammography and digital tomosynthesis for breast cancer screening: a paired, noninferiority trial
*Published: 2026 Apr*
Artificial intelligence (AI) systems have been demonstrated to improve the
accuracy of screening mammograms. Here this prospective, paired, noninferiority
clinical trial evaluated whether AI could safely reduce workload by excluding
low-risk exams from radiologist reading. Between March 2022 and January 2024,
31,301 women were included in the trial and underwent routine mammograms. Two
reading strategies were applied in parallel: standard double-blind reading and
partially autonomous AI-supported screening, where cases classified by AI as low
risk were assessed as normal and the rest were double read with AI support. The
primary outcomes were radiologist workload, cancer detection rate and recall
rate. In the AI strategy, radiologist workload was 63.6% lower; the cancer
detection rate was 15.2% higher (95% confidence interval 6.6%, 24.4%),
increasing from 6.3 of 1,000 to 7.3 of 1,000, Pā<ā0.001; and the recall rate was
not noninferior and was 14.8% higher (95% confidence interval 9.0%, 20.6%).
Subanalyses by modality highlighted a similar workload reduction in digital
mammography (-62.1%) and digital breast tomosynthesis (-65.5%). However, in
digital mammography, the cancer detection rate increased by 1.6 of 1,000 and the
recall rate by 1.3%, while both remained stable in digital breast tomosynthesis.
These results demonstrate the feasibility of a partially automated AI workflow
in breast cancer screening, avoiding human reading of studies classified as low
risk. ClinicalTrials.gov: NCT04849776 .
DOI: 10.1038/s41591-026-04277-x