Title of article
Evaluation of volumetric modulated arc therapy technique for cranio-spinal irradiation: A rando - phantom based dosimetric study
Author/Authors
Goksel, E.O Acibadem Mehmet Ali Aydinlar University - Vocational School of Health Services - Radiotherapy Program, Istanbul, Turkey , Tezcanli, E Department of Radiation Oncology - Acibadem Altunizade Hospital - Istanbul, Turkey , Okutan, M Department of Radiotherapy - Istanbul University Medicine Faculty - Oncology Institute - Istanbul, Turkey , Bilge, H Department of Radiotherapy - Istanbul University Medicine Faculty - Oncology Institute - Istanbul, Turkey , Yildiz Yarar, Y Department of Physics - Yildiz Technical University - Istanbul, Turkey
Pages
11
From page
531
To page
541
Abstract
Background: In this study, clinical advantages and the dosimetric accuracy of volumetric modulated arc therapy (VMAT) technique for cranio-spinal
irradiation (CSI) were investigated and compared with field in field (FinF) and
intensity modulated radiotherapy (IMRT) techniques. Materials and Methods:
The organs at risk (OARs) and planning target volume (PTV) were generated
on the RANDO phantom computerized tomography (CT) image series. The
dose–volume parameters for PTVs and OARs were compared for three
techniques. Furthermore, the dose distribution inside the RANDO phantom
was measured with thermoluminescent dosimeter (TLD) for all three
techniques. Comparisons were done between measured and calculated doses
of field junctions, targets and OARs. Results: FinF failed to obtain an adequate
dose distribution for the upper spine (US), while VMAT and IMRT provided
good dose coverage for all parts of the PTV. The most homogeneous dose
distribution at the field junctions was obtained with the VMAT. Although
heart, thyroid, intestine, lung, liver and testicular maximum doses were lower
for the VMAT, the mean doses were higher except for the heart and thyroid.
The absolute volume receiving prescription dose was significantly lower for
the VMAT. The median differences between the TLD measurements and TPS
calculations were 0.27% (7.8, -9.7; p=0.394), -0.28% (8.1, -10.7; p=0.322) and -
0.33% (8.4, -12; p=0.338) for the FinF, IMRT and VMAT, respectively. These
differences were not found statistically significant for the VMAT technique, as
were the other two techniques. Conclusion: We conclude that the VMAT
technique is the optimal Linac based CSI treatment in regards to dose
coverage, dose homogeneity in field junctions and OAR sparing for higher
doses. In addition, the VMAT showed dose distribution accuracy as good as the two other techniques in measurements simulating real clinical situations.
Keywords
Cranio-spinal irradiation , VMAT , TLD , RANDO phantom
Journal title
International Journal of Radiation Research
Serial Year
2021
Record number
2721603
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