Stereotactic body radiation therapy (SBRT) aims to deliver a highly conformal ablative dose to a small target. Dosimetric verification of SBRT for lung tumors presents a challenge due to heterogeneities, moving targets, and small fields. Recent software (M3D) designed for dosimetric verification of lung SBRT treatment plans using an advanced convolution–superposition algorithm was evaluated. Ten lung SBRT patients covering a range of tumor volumes were selected. 3D CRT plans were created using the XiO treatment planning system (TPS) with the superposition algorithm. Dose was recalculated in the Eclipse TPS using the AAA algorithm, M3D verification software using the collapsed-cone-convolution algorithm, and in-house Monte Carlo (MC). Target...
Background The use of high accuracy dose calculation algorithms, such as Monte Carlo (MC) and Colla...
Stereotactic body radiation therapy (SBRT) treatments have high-dose gradients and even slight patie...
PURPOSE Dose, fractionation, normalization and the dose profile inside the target volume vary sub...
Stereotactic body radiation therapy (SBRT) aims to deliver a highly conformal ablative dose to a sma...
Purpose: To evaluate against Monte-Carlo the performance of various dose calculations algorithms reg...
Purpose: To estimate accumulated dose to targets and OARs for lung cancer patients treated with SBRT...
BACKGROUND: The aim of this study was to compare and to validate different dose calculation algorith...
Background: It is widely accepted that Monte Carlo dose calculations offers a higher precision that ...
RTapp™ is a daily dose evaluation software developed by ©SegAna LLC. It utilizes deformable image re...
Dose targeting is critical in lung tumours that are treated with stereotactic ablative body radiothe...
The important task of radiotherapy is to make sure that the radiation dose to the target tumour is a...
Background: Inclusion of inhomogeneity corrections in intensity modulated small fields always makes ...
Purpose: To use four-dimensional (4D) dose accumulation based on deformable image registration (DIR)...
Purpose: Confirmation of treatment delivery accuracy in stereotactic body radiotherapy (SBRT) of lun...
Purpose: Dose calculation based on pencil beam (PB) algorithms has its shortcomings predicting dose ...
Background The use of high accuracy dose calculation algorithms, such as Monte Carlo (MC) and Colla...
Stereotactic body radiation therapy (SBRT) treatments have high-dose gradients and even slight patie...
PURPOSE Dose, fractionation, normalization and the dose profile inside the target volume vary sub...
Stereotactic body radiation therapy (SBRT) aims to deliver a highly conformal ablative dose to a sma...
Purpose: To evaluate against Monte-Carlo the performance of various dose calculations algorithms reg...
Purpose: To estimate accumulated dose to targets and OARs for lung cancer patients treated with SBRT...
BACKGROUND: The aim of this study was to compare and to validate different dose calculation algorith...
Background: It is widely accepted that Monte Carlo dose calculations offers a higher precision that ...
RTapp™ is a daily dose evaluation software developed by ©SegAna LLC. It utilizes deformable image re...
Dose targeting is critical in lung tumours that are treated with stereotactic ablative body radiothe...
The important task of radiotherapy is to make sure that the radiation dose to the target tumour is a...
Background: Inclusion of inhomogeneity corrections in intensity modulated small fields always makes ...
Purpose: To use four-dimensional (4D) dose accumulation based on deformable image registration (DIR)...
Purpose: Confirmation of treatment delivery accuracy in stereotactic body radiotherapy (SBRT) of lun...
Purpose: Dose calculation based on pencil beam (PB) algorithms has its shortcomings predicting dose ...
Background The use of high accuracy dose calculation algorithms, such as Monte Carlo (MC) and Colla...
Stereotactic body radiation therapy (SBRT) treatments have high-dose gradients and even slight patie...
PURPOSE Dose, fractionation, normalization and the dose profile inside the target volume vary sub...