The Oncotype DX® Recurrence Score (RS) is an assay for hormone receptor-positive early breast cancer with extensively validated predictive and prognostic value. However, its cost and lag time have limited global adoption, and previous attempts to estimate it using clinicopathologic variables have had limited success. To address this, we assembled 6172 cases across three institutions and developed Orpheus, a multimodal deep learning tool to infer the RS from H&E whole-slide images. Our model identifies TAILORx high-risk cases (RS > 25) with an area under the curve (AUC) of 0.89, compared to a leading clinicopathologic nomogram with 0.73. Furthermore, in patients with RS ≤ 25, Orpheus ascertains risk of metastatic recurrence more accurately than the RS itself (0.75 vs 0.49 mean time-dependent AUC). These findings have the potential to guide adjuvant therapy for high-risk cases and tailor surveillance for patients at elevated metastatic recurrence risk.
Multimodal histopathologic models stratify hormone receptor-positive early breast cancer / K.M. Boehm, O.S.M. El Nahhas, A. Marra, M. Waters, J. Jee, L. Braunstein, N. Schultz, P. Selenica, H.Y. Wen, B. Weigelt, E.D. Paul, P. Cekan, R. Erber, C.M.L. Loeffler, E. Guerini-Rocco, N. Fusco, C. Frascarelli, E. Mane, E. Munzone, S. Dellapasqua, P. Zagami, G. Curigliano, P. Razavi, J.S. Reis-Filho, F. Pareja, S. Chandarlapaty, S.P. Shah, J.N. Kather. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 16:1(2025), pp. 2106.1-2106.14. [10.1038/s41467-025-57283-x]
Multimodal histopathologic models stratify hormone receptor-positive early breast cancer
A. Marra;E. Guerini-Rocco;N. Fusco;C. Frascarelli;S. Dellapasqua;P. Zagami;G. Curigliano;
2025
Abstract
The Oncotype DX® Recurrence Score (RS) is an assay for hormone receptor-positive early breast cancer with extensively validated predictive and prognostic value. However, its cost and lag time have limited global adoption, and previous attempts to estimate it using clinicopathologic variables have had limited success. To address this, we assembled 6172 cases across three institutions and developed Orpheus, a multimodal deep learning tool to infer the RS from H&E whole-slide images. Our model identifies TAILORx high-risk cases (RS > 25) with an area under the curve (AUC) of 0.89, compared to a leading clinicopathologic nomogram with 0.73. Furthermore, in patients with RS ≤ 25, Orpheus ascertains risk of metastatic recurrence more accurately than the RS itself (0.75 vs 0.49 mean time-dependent AUC). These findings have the potential to guide adjuvant therapy for high-risk cases and tailor surveillance for patients at elevated metastatic recurrence risk.
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