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Computer Vision for Predicting the Efficacy of Neoadjuvant Therapy in Breast Cancer
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Institute for Regenerative Medicine, Sechenov University, 8-2 Trubetskaya St., 119991 Moscow, Russia
2
Moscow City Oncology Hospital No. 62, 27 Istra, 143515 Moscow, Russia
*
Author to whom correspondence should be addressed.
Cancers 2026, 18(11), 1857; https://doi.org/10.3390/cancers18111857 (registering DOI)
Submission received: 17 April 2026
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Revised: 28 May 2026
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Accepted: 3 June 2026
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Published: 5 June 2026
(This article belongs to the Topic Artificial Intelligence in Computational Pathology for Cancer Diagnosis)
Simple Summary
Breast cancer is the most common malignancy in women, and patients often receive neoadjuvant therapy (NAT) before surgery to reduce tumor burden and improve outcomes. However, not all patients respond to NAT, and its effectiveness remains difficult to predict. This review summarizes approaches using computer vision to predict breast cancer response to NAT from histopathological slides. The review is focused on biological insights revealed by computer vision and technical aspects of model development. Particular attention was given to tumor cells, stromal components and tumor-infiltrating lymphocytes, allowing a comprehensive analysis of the tumor and its microenvironment. Predictors of resistance included low tumor cell density with cord-like patterns, necrosis, vascularization and collagenous or fibroblast-rich stroma, whereas sensitivity was associated with dense tumor cell populations and lymphocyte infiltration. Our analysis demonstrates that computer vision can detect and measure subtle microstructural patterns and improve the prediction of NAT response.
Abstract
Neoadjuvant therapy (NAT) is a standard component of breast cancer treatment, yet response rates vary substantially across patients. Accurate prediction of pathological complete response remains an unmet clinical need to improve patient selection for NAT. This review summarizes current approaches of using computer vision to predict breast cancer response to NAT from histopathological slides. We examined studies employing computer vision and machine learning models on hematoxylin and eosin and immunohistochemically stained whole-slide images, focusing on morphological features of tumor cells, stroma and tumor-infiltrating lymphocytes associated with pathological complete response. Key morphological predictors of therapy resistance included low tumor cell density with cord-like patterns, necrosis, predominance of collagenous and fibroblast-rich stroma and tumor vascularization, while therapy sensitivity was associated with high nuclear staining intensity, high tumor cell density and lymphocyte infiltration. We highlighted the advantages of incorporating multimodal data to enhance predictive performance. Our analysis demonstrates that computer vision models can detect subtle morphological patterns that may be difficult for pathologists to evaluate, providing valuable insights for personalized therapy planning in breast cancer. Further development of cross-modal, interpretable artificial intelligence solutions may improve prediction accuracy and deepen our understanding of tumor biology relevant to NAT response.
