AI tool for breast cancer patients following surgery will be trialled later this year.

An international team of researchers, led by the University of Leicester, has developed an artificial intelligence (AI) tool that can predict which breast cancer patients may be at risk of side effects after surgery and radiotherapy. 

Dr Tim Rattay, a consultant breast surgeon and Associate Professor at the University’s Leicester Cancer Research Centre, presented the development at the 14th European Breast Cancer Conference (EBCC14) in Milan this week (21 March), explaining that the tool will be tested in a clinical trial towards the end of the year in the UK, France, and Netherlands.

Some of the factors that increase the risk of side effects are already known, but the PRE-ACT project (Prediction of Radiotherapy side Effects using explainable AI for patient Communication and Treatment modification) aims to make more accurate predictions for each individual patient, as well as providing easily understandable explanations for doctors and patients.

Dr Rattay said: “The explainable AI tool shows the reasoning behind its decision-making so it’s easier not only for doctors to make decisions, but also to provide data-backed explanations to their patients.

“Thankfully, long-term survival rates from breast cancer continue to increase, but for some patients, this means having to live with the side effects of their treatment, including skin changes, scarring, lymphoedema, which is a painful swelling of the arm, and even heart damage from radiation treatment. 

“That’s why we’ve developed an AI tool to inform doctors and patients about the risk of chronic arm swelling after surgery and radiotherapy for breast cancer. We hope this will assist doctors and patients in choosing options for radiation treatment and reduce side effects for all patients.”

The team of researchers used information from European datasets (REQUITE, Hypo-G and CANTO) on 6,361 breast cancer patients to train different machine learning algorithms to predict arm swelling up to three years after surgery and radiotherapy.

Dr Rattay said: “Patients identified at higher risk of arm swelling could be offered additional supportive measures, such as wearing an arm compression sleeve during treatment, which has been shown to reduce arm swelling in the long-term. Clinicians may also use this information to discuss options for lymph node irradiation in patients, where its benefit may be fairly borderline. We will test the effect of the prediction model on clinician and patient behaviour and use of the prophylactic arm sleeve in the proposed clinical trial.”

The researchers will incorporate the current AI model into software that can provide evaluations and predictions to doctors and patients. This will be tested when the PRE-ACT-clinical trial starts later this year. They are also developing the tool further so that it can predict other side effects, such as skin and heart damage. 

Dr Guido Bologna, Associate Professor at the University of Applied Sciences and Arts of Western Switzerland in Geneva, and co-investigator on the project added: “The final, best-performing model makes predictions using 32 different patient and treatment features, including whether or not patients had chemotherapy, whether sentinel lymph node biopsy under the armpit was carried out, and the type of radiotherapy given.” 

As part of the trial, the researchers will collect data on genetic markers and imaging data to improve the accuracy of the AI tools, although these will not be used to make predictions in the PRE-ACT trial. 

The study is funded by the Horizon Europe programme and it is hoped that approximately 780 patients will take part in the clinical trial by early 2026, with a follow up period of two years.