The SONImage Study

Estrogen receptor positive (ER+) breast cancer is the most common cancer and the most frequent cause of cancer-related death in women in the Western World. Cyclin-dependent kinase 4 and 6 (CDK 4/6) inhibitors improve outcome, when added to standard first- and second-line endocrine therapy. However, they also add patient- and financial burden due to (long term) increased toxicity and hospital visits. Therefore, benefits of additional CDK 4/6 inhibitors should be weighed against their burden. Tools to support such treatment decisions by patients and providers are currently lacking. Whole body heterogeneity of ER expression, measured by 16α-[18F]fluoro-17β-estradiol (FES)-PET scan and 18F-fluorodeoxyglucose (FDG)-PET scan was related to time to progression on combined treatment in previous work. Therefore in SONImage a baseline FES-PET is added to conventional work up, in 100 patients with ER+ MBC who will receive first line endocrine treatment ± CDK 4/6 inhibition within the SONIA study. The objectives are 1. to correlate PFS1 (according to SONIA criteria) to baseline FES/FDG-PET heterogeneity; 2. to assess interaction between baseline FES/FDG-PET heterogeneity, treatment allocation, and PFS1 (according to SONIA criteria); 3. to correlate response measurements of individual lesions to baseline FES/FDG heterogeneity and detailed FES/FDG imaging features; 4. to develop a multivariable model to predict individual PFS benefit to first-line AI ± CDK 4/6 inhibition, based on detailed FES/FDG image features and standard clinicopathological information, in n=100 SONIA patients; 5. to validate this prediction model in two independent patient cohorts with baseline FES/FDG-PET scans (Dutch IMPACT-MBC trial; international ET-TRANSCAN trial). This molecular imaging based multivariable prediction model may provide a unique measure of benefit of adding CDK 4/6 inhibition to first-line endocrine treatment, allowing patients and providers to weigh individual benefits and (long term) burden for optimized treatment decisions. Particularly for the approximately 25% of patients with ER+ MBC who have an excellent- or poor outcome despite CDK 4/6 inhibition in the first-line, this could have profound implications, as they may refrain from combined treatment. Ultimately, this could potentially contribute to FES/FDG-PET based treatment decisions in clinical practice, reduction of unnecessary toxicity and costs, while improving patient outcome and QoL.