Analysis of the electron-stream effect in patients treated with partial breast irradiation using the 1.5 T MR-linear accelerator
Chiara De‐Colle, Marcel Nachbar, David Mönnich, Simon Boeke, Cihan Gani, N. Weidner, Vanessa Heinrich, Jasmin Winter, Savas Tsitsekidis, O. Dohm, Daniel Zips, Daniela Thorwarth
Abstract
INTRODUCTION: The hybrid magnetic resonance linear accelerator (MRL) has the potential to test novel concepts in breast cancer patients such as daily MR-guided real-time plan adaptation. Before starting clinical trials, preparatory studies for example of the MR-dependent electron stream effect (ESE) are necessary. MATERIAL AND METHODS: dosimetry results were compared with the dose simulated by the treatment planning system (TPS). The same measurements were carried out for three patients treated at a conventional linac. Toxicity and cosmesis were evaluated. RESULTS: Median doses measured and simulated on top/ underneath the bolus were 1.91 / 0.62 Gy and 2.82 / 0.63 Gy, respectively. Median differences between calculations and measurements were 0.8 Gy and 0.1 Gy. At the conventional linac, median measured doses on top/ underneath the bolus were 0.98 and 1.37 Gy. No acute toxicity exceeding grade 2 was recorded. Cosmesis was good or excellent and patient reported outcome measures were mostly scored as none or mild. CONCLUSION: The dose due to the ESE is low, correctly predicted by the TPS and effectively minimized by a bolus.