ESTRO 2023 - Abstract Book

S1480

Digital Posters

ESTRO 2023

Purpose or Objective Stereotactic radiotherapy is a type of cancer treatment that uses small fields with a high dose per fraction. The realization of that type of treatment is possible with the use of the dedicated accelerators. One of these types of an accelerator is CyberKnife (Accuray Incorporated, Sunnyvale, USA). Because of generating small field beams, these accelerators require a dedicated methodology of commissioning and dose measurements before patients treatment. This work shows the difference between measurement of quality energy for four radiation detectors. Materials and Methods The quality index of CyberKnife 6 MV FFF photon beam was determined from the continues tissue phantom ratio measurement, percentage depth dose curves and by using two point dose measurement at depths 200 mm and 100 mm (SDD=100cm) and then dividing these values. Those measurements were performed for InCISE (MLC) collimator. First, it was essential to measure reference value of the Quality Index (QI) from TPR for field 6 cm FIX collimator (machine specific reference field for CyberKnife) which correspond to 6,75 cm x 6,75 cm square field at 100 cm. The reference value was determined by using microDiamond detector and all steps to determine those values shown on Graph 1. The calculated QI index was used to interpolate the energy value for this accelerator, which energy was used to the determined quality index for field 10 x 10 cm with use reference values from British Journal of Radiology (BJR) supplement 25. In the next step, the Quality Index was determined by all existing methods and four different detectors – microDiamond, microSilicon, Diode E, and SemiFlex (PTW Freiburg, Germany). Obtained values were correlated with values obtained from interpolation for field 10 cm x 10 cm and energy value.

Results The differences between measured and interpolated values of QI was presented in Table 1. The reference Quality Index value achieved for 6 cm diameter FIX was 0,6478. Reading from microSilicon measurement was the closest to the calculated Quality Index for energy on this accelerator.

Conclusion The smallest difference between measured and interpolated values were was obtained for diodes – microSilicon and Diode E. This detector shows the smallest differences for all methods of determination of the Quality Index. Difference for microDiamond and SemiFlex was similar. Moreover there where very small differences between used method for detector.

PO-1762 Dosimetric properties of a water-based liquid scintillator for use in kV energy photon beams

D. Bernier-Marceau 1,3 , L. Beaulieu 1,3 , É. Cloutier 1,3 , M. Yeh 2

1 Université Laval, Département de physique, de génie physique et d'optique , Québec, Canada; 2 Brookhaven National Laboratory, Neutrino and Nuclear Chemistry, Upton, USA; 3 CHU de Québec – Université Laval and CRCHU de Québec, Centre de recherche sur le cancer, Université Laval, Québec, Canada Purpose or Objective Existing dosimeters are sometimes toxic to humans and the environment, which leads to more care in clinical settings. In this regard, it is necessary to provide alternative scintillators that would no longer have these problems while having properties equivalent to those of human tissues both at lower and higher energies. Thus, this work presents the characterization at kV beam energies of a new type of liquid scintillator that is mainly composed of water. The