Wei Chen1, Jan-Jakob Sonke1, Joep Stroom2, Harry Bartelink1, Marcel Verheij1, Kenneth Gilhuijs3. 1. Department of Radiation Oncology, Netherlands Cancer Institute, Amsterdam, The Netherlands. 2. Department of Radiation Oncology, Fundação Champalimaud, Lisboa, Portugal. 3. Department of Radiology, University Medical Centre Utrecht, The Netherlands. Electronic address: K.G.A.Gilhuijs@umcutrecht.nl.
Abstract
BACKGROUND AND PROPOSE: Age is an important prognostic marker of patient outcome after breast conserving therapy; however, it is not clear how age affects the outcome. This study aimed to explore the relationship between age with the cell quantity and the radiosensitivity of microscopic disease (MSD) in relation to treatment outcome. MATERIALS AND METHODS: We employed a treatment simulation framework which contains mathematic models for describing the load and spread of MSD based on a retrospective cohort of breast pathology specimens, a surgery simulation model for estimating the remaining MSD quantity and a tumor control probability model for predicting the risk of local recurrence following radiotherapy. RESULTS: The average MSD cell quantities around the primary tumor in younger (age⩽50years) and older patients were estimated at 1.9∗10(8)cells and 8.4∗10(7)cells, respectively (P<0.01). Following surgical simulation, these numbers decreased to 2.0∗10(7)cells and 1.3∗10(7)cells (P<0.01). Younger patients had smaller average surgical resection volume (118.9cm(3)) than older patients (162.9cm(3), P<0.01) but larger estimated radiosensitivity of MSD cells (0.111Gy(-1) versus 0.071Gy(-1), P<0.01). CONCLUSION: The higher local recurrence rate in younger patients could be explained by larger clonogenic microscopic disease cell quantity, even though the microscopic disease cells were found to be more radiosensitive.
BACKGROUND AND PROPOSE: Age is an important prognostic marker of patient outcome after breast conserving therapy; however, it is not clear how age affects the outcome. This study aimed to explore the relationship between age with the cell quantity and the radiosensitivity of microscopic disease (MSD) in relation to treatment outcome. MATERIALS AND METHODS: We employed a treatment simulation framework which contains mathematic models for describing the load and spread of MSD based on a retrospective cohort of breast pathology specimens, a surgery simulation model for estimating the remaining MSD quantity and a tumor control probability model for predicting the risk of local recurrence following radiotherapy. RESULTS: The average MSD cell quantities around the primary tumor in younger (age⩽50years) and older patients were estimated at 1.9∗10(8)cells and 8.4∗10(7)cells, respectively (P<0.01). Following surgical simulation, these numbers decreased to 2.0∗10(7)cells and 1.3∗10(7)cells (P<0.01). Younger patients had smaller average surgical resection volume (118.9cm(3)) than older patients (162.9cm(3), P<0.01) but larger estimated radiosensitivity of MSD cells (0.111Gy(-1) versus 0.071Gy(-1), P<0.01). CONCLUSION: The higher local recurrence rate in younger patients could be explained by larger clonogenic microscopic disease cell quantity, even though the microscopic disease cells were found to be more radiosensitive.