An improved calibration procedure for accurate plastic scintillation dosimetry on an MR-linac

Phys Med Biol. 2024 Dec 9;69(24). doi: 10.1088/1361-6560/ad9544.

Abstract

Objective.Plastic scintillation dosimeters (PSDs) are highly suitable for real-time dosimetry on the MR-linac. For optimal performance, the primary signal (scintillation) needs to be separated from secondary optical effects (Cerenkov, fluorescence and optical fiber attenuation). This requires a spectral separation approach and careful calibration. Currently, the 'classic' calibration is a multi-step procedure using both kV and MV x-ray sources, requiring an uninterrupted optical connection between the dosimeter and read-out system, complicating efficient use of PSDs. Therefore, we present a more time-efficient and more practical novel calibration technique for PSDs suitable for MR-linac dosimetry.Approach.The novel calibration relies on prior spectral information combined with two 10 × 10 cm2field irradiations on the 1.5 T MR-linac. Performance of the novel calibration technique was evaluated focusing on its reproducibility, performance characteristics (repeatability, linearity, dose rate dependency, output factors, angular response and detector angle dependency) and IMRT deliveries. To investigate the calibration stability over time, prior spectral information up to 315 days old was used. To quantify the time efficiency, each step of the novel and classic calibration was timed.Main results.The novel calibration showed a high reproducibility with a maximum relative standard deviation of 0.2%. The novel method showed maximum differences of 1.2% compared to the gold-standard calibration, while reusing old classic calibrations after reconnecting fibers showed differences up to 3.0%. The novel calibration improved time efficiency from 105 to 30 min compared to the classic method.Significance.The novel calibration method showed a gain in time efficiency and practicality while preserving the dosimetric accuracy. Therefore, this method can replace the traditional method for PSDs suitable for MR-linac dosimetry, using prior spectral information of up to a year. This novel calibration facilitates reconnecting the detector to the read-out system which would lead to unacceptable dosimetric results with the classic calibration method.

Keywords: MR-linac; PSD; novel calibration.

MeSH terms

  • Calibration
  • Magnetic Resonance Imaging / instrumentation
  • Particle Accelerators*
  • Plastics*
  • Radiometry* / instrumentation
  • Radiometry* / methods
  • Radiometry* / standards
  • Scintillation Counting* / instrumentation
  • Scintillation Counting* / methods

Substances

  • Plastics