Intra-operative radiation therapy (IORT) is a treatment modality where a single high dose of radiation is delivered directly to thetumor bed or to the exposed tumor during the surgical intervention, while avoiding surrounding dose-limiting structures. Mobileelectron linear accelerators dedicated to IORT have been manufactured which have promoted a local large diffusion of thisradiotherapy modality.For breast irradiation, a single fraction of 21 Gy delivered on the target volume during the surgical procedure is equivalent to thetotal dosage (60 Gy) usually delivered during 30 external fractionated radiotherapy at 2Gy/fraction. Alternatively, a single dose of10 Gy can be administered as Intra-Operative Boost to the tumor bed, followed by hypo-fractionated or conventional externalbeam whole breast radiotherapy.This work reports a comparison between the response of alanine and Markus ionization chamber carried out for measurements ofthe output factors (OF) of electron beams produced by a linear accelerator used for IORT. Output factors (OF) for conventionalhigh-energy electron beams are normally measured using ionization chamber according to international dosimetry protocols.However, the electron beams used in IORT have characteristics of dose per pulse, energy spectrum and angular distribution quitedifferent from beams usually used in external radiotherapy, so the direct application of international dosimetry protocols mayintroduce additional uncertainties in dosimetric determinations. The high dose per pulse could lead to an inaccuracy in dosemeasurements with ionization chamber, due to overestimation of ks recombination factor. Furthermore, the electron fieldsobtained with IORT-dedicated applicators have a wider energy spectrum and a wider angular distribution than the conventionalfields, due to the presence of electrons scattered by the applicator’s wall. For this reason, a dosimetric system should becharacterized by a minimum dependence from the beam energy and from angle of incidence of electrons. This become particularlycritical for small and bevelled applicators. All of these reasons lead to investigate the use of detectors different from the ionizationchamber for measuring the OFs.Furthermore, the complete characterization of the radiation field is achieved also by the use of Monte Carlo Geant4 simulationswhich allows to obtain detailed information on dose distributions. We compared the output factors obtained by means of alaninedosimeters and Markus ionization chamber. The results are characterized by a good agreement of response of alanine pellets andMarkus ionization chamber and Monte Carlo results (within about 3%) for both flat and bevelled applicators.
|Numero di pagine||1|
|Stato di pubblicazione||Published - 2015|