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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

2021Clinical and Translational Radiation Oncology18 citationsDOIOpen Access PDF

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.

Topics & Concepts

CosmesisNuclear medicineMedicineBolus (digestion)Linear particle acceleratorDosimetryRadiation therapyMagnetic resonance imagingIrradiationBreast cancerRadiologySurgeryCancerInternal medicineBeam (structure)Nuclear physicsPhysicsOpticsAdvanced Radiotherapy TechniquesMRI in cancer diagnosisBreast Cancer Treatment Studies
Analysis of the electron-stream effect in patients treated with partial breast irradiation using the 1.5 T MR-linear accelerator | Litcius