Your search keyword '"RADIOTHERAPY treatment planning"' showing total 2 results

1. اثر ناهمگنی بر صحت دزیمتری در پرتودرمانی کانفورمال پروستات با استفاده از شبیه سازی مونت کارلو

Author

الهی, مهدی, هاشمی, بیژن, and مهدوی, سید ربیع

Subjects

*PROSTATE cancer treatment, *MONTE Carlo method, *RADIOTHERAPY treatment planning, *MEDICAL dosimetry, *ISODOSE curves, *IMAGING phantoms

Abstract

Background and purpose: The human body is composed of various inhomogenous tissues with a variety of physical and radiological properties. These inhomogeneities could change isodose distributions, increase the probability of geometric errors, and eventually lead to missing of the target irradiation or incorrect isodose coverage in conformal radiation therapy (CRT) due to the uncertainties resulted from the effect of such inhomogeneties on isodose curves. In this study, the effect of inhomogeneities on dosimetric accuracy of the CRT of prostate was investigated using Monte Carlo simulation method. Materials and methods: An anthropomorphic pelvis phantom was used in two modes representing a homogeneous and heterogeneous phantom. Three dimensional (3D) CRT planning composed of five fields were performed on the CT images of the phantoms using the CorPLAN treatment planning system (TPS) of a 2100C/D Varian linac. Delivery of 3DCRT was also simulated by EGSnrc Monte Carlo code for the same conditions used in the CorPLAN TPS. The dose distributions resulted from the MC simulations were compared with those of the CorPLAN TPS for both of the phantoms based on the "dose difference (DD) percentages" and "distance to agreement (DTA)" parameters. Results: Findings indicated that the heterogeneity leads to an overdose estimation at the target location up to 2.8% and 4.4% for the 6 and 18 MV energies, respectively by the CorPLAN TPS compared with the MC simulation data. The average DD and DTA for the homogeneous phantom were 2.7%-3.4mm and 1.6%-2.3 mm while for the inhomogeneous phantom they were 5.5%-3.7 mm and 6.0%-2.5 mm at the 6 and 18 MV energies, respectively. Conclusion: Our results indicates that the accuracy of the dosimetry parameters estimated by the CorPLAN TPS at 18 MV is more than that of 6 MV energy. But, the heterogeneity deteriorates more the accuracy level of such dosimetry parameters estimated by this commercial TPS at 18 MV energy. [ABSTRACT FROM AUTHOR]

Published

2016

2. Development and Implementation of the Convolution Method for Photon Dose Calculation in Radiation Therapy.

Author

Jabbari, Keyvan, Bagher Tavakoli, Mohamad, and Mojtaba Hosseini, Sayed

Subjects

*RADIOTHERAPY, *RADIATION doses, *MATHEMATICAL convolutions, *CANCER treatment, *PHOTONS, *RADIOTHERAPY treatment planning

Abstract

Background: One of the most widely used methods in cancer treatment is radiation therapy. In radiation therapy, the goal is to deliver maximum dose to the cancerous tissue and the least amount to adjacent normal tissue. Therefore, it is important to calculate radiation doses received by different points of body. These calculations are performed by treatment planning systems. The aim of this project was to develop and implement the convolution algorithm in the form of a code. The accuracy of doses calculated by the code was then compared with experimental values. Methods: Full scatter convolution method was used in this project. Considering a phantom with dimensions of 11.5 × 11.5 × 11.25 cm3 and field sizes of 3 × 3, 5 × 5, and 10 × 10 cm2 on its surface, the code was written by MATLAB program. Incident photon energy was considered as 6 MeV. Finally, percentage depth dose values were compared with experimental values. Findings: The mean percent difference values were 1.527%, 1.51%, and 3.00% for field sizes of 3 × 3, 5 × 5, and 10 × 10 cm2, respectively. Conclusion: Percentage differences between the doses calculated by the code and experimental values were less than 5% for all three field sizes. According to the recommendations of Task Group 53 of the Radiation Therapy Committee of the American Association of Physicists in Medicine, the values were in the acceptable range. [ABSTRACT FROM AUTHOR]

Published

2012