Litcius/Paper detail

Technical note: Vendor‐agnostic water phantom for 3D dosimetry of complex fields in particle therapy

Christoph Schuy, Yuri Simeonov, Marco Durante, Klemens Zink, Uli Weber

2020Journal of Applied Clinical Medical Physics13 citationsDOIOpen Access PDF

Abstract

PURPOSE: Three-dimensional (3D) dosimetry is a necessity to validate patient-specific treatment plans in particle therapy as well as to facilitate the development of novel treatment modalities. Therefore, a vendor-agnostic water phantom was developed and verified to measure high resolution 3D dose distributions. METHODS: C beams. The dose distribution of several monoenergetic and complex scanned fields were measured with different step sizes to assess the reproducibility, absolute positioning accuracy, and general performance of the system. RESULTS: The developed system was successfully validated and used to automatically measure high resolution 3D dose distributions. The reproducibility in depth was better than ±25 micron. The roll and tilt uncertainty of the detector was estimated to be smaller than ±3 mrad. CONCLUSIONS: The presented system performed fully automated, high resolution 3D dosimetry, suitable for the validation of complex radiation fields in particle therapy. The measurement quality is comparable to commercially available systems.

Topics & Concepts

Imaging phantomDosimetryProton therapyIonization chamberQuality assuranceReproducibilityParticle therapyDetectorMedical physicsComputer scienceNuclear medicinePhysicsOpticsProtonIonizationMathematicsNuclear physicsMedicineStatisticsPathologyExternal quality assessmentBeam (structure)Quantum mechanicsIonAdvanced Radiotherapy TechniquesRadiation Therapy and DosimetryEffects of Radiation Exposure