TY - JOUR
T1 - Field size dependent mapping of medical linear accelerator radiation leakage
AU - Vu Bezin, Jérémi
AU - Veres, Attila
AU - Lefkopoulos, Dimitri
AU - Chavaudra, Jean
AU - Deutsch, Eric
AU - De Vathaire, Florent
AU - Diallo, Ibrahima
N1 - Publisher Copyright:
© 2015 Institute of Physics and Engineering in Medicine.
PY - 2015/2/21
Y1 - 2015/2/21
N2 - The purpose of this study was to investigate the suitability of a graphics library based model for the assessment of linear accelerator radiation leakage. Transmission through the shielding elements was evaluated using the build-up factor corrected exponential attenuation law and the contribution from the electron guide was estimated using the approximation of a linear isotropic radioactive source. Model parameters were estimated by a fitting series of thermoluminescent dosimeter leakage measurements, achieved up to 100 cm from the beam central axis along three directions. The distribution of leakage data at the patient plane reflected the architecture of the shielding elements. Thus, the maximum leakage dose was found under the collimator when only one jaw shielded the primary beam and was about 0.08% of the dose at isocentre. Overall, we observe that the main contributor to leakage dose according to our model was the electron beam guide. Concerning the discrepancies between the measurements used to calibrate the model and the calculations from the model, the average difference was about 7%. Finally, graphics library modelling is a readily and suitable way to estimate leakage dose distribution on a personal computer. Such data could be useful for dosimetric evaluations in late effect studies.
AB - The purpose of this study was to investigate the suitability of a graphics library based model for the assessment of linear accelerator radiation leakage. Transmission through the shielding elements was evaluated using the build-up factor corrected exponential attenuation law and the contribution from the electron guide was estimated using the approximation of a linear isotropic radioactive source. Model parameters were estimated by a fitting series of thermoluminescent dosimeter leakage measurements, achieved up to 100 cm from the beam central axis along three directions. The distribution of leakage data at the patient plane reflected the architecture of the shielding elements. Thus, the maximum leakage dose was found under the collimator when only one jaw shielded the primary beam and was about 0.08% of the dose at isocentre. Overall, we observe that the main contributor to leakage dose according to our model was the electron beam guide. Concerning the discrepancies between the measurements used to calibrate the model and the calculations from the model, the average difference was about 7%. Finally, graphics library modelling is a readily and suitable way to estimate leakage dose distribution on a personal computer. Such data could be useful for dosimetric evaluations in late effect studies.
KW - graphics library
KW - leakage
KW - multi-source modelling
KW - radiotherapy
UR - http://www.scopus.com/inward/record.url?scp=84922567619&partnerID=8YFLogxK
U2 - 10.1088/0031-9155/60/5/2103
DO - 10.1088/0031-9155/60/5/2103
M3 - Article
C2 - 25675153
AN - SCOPUS:84922567619
SN - 0031-9155
VL - 60
SP - 2103
EP - 2116
JO - Physics in Medicine and Biology
JF - Physics in Medicine and Biology
IS - 5
ER -