To validate the model-based 3D dose calculation performed by the COMPASS system, and to evaluate the use of the combination of model-based and measurement-based 3D dose determination for clinical QA purposes
Radiation therapy aims at delivering a prescribed amount of radiation dose to cancerous targets whil...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
<p>3D dose verification has important advantages for comprehensive verification of advanced radiatio...
PURPOSE: Advanced radiotherapy treatments require appropriate quality assurance (QA) to verify 3D do...
A practical method was designed to verify the accuracy of dose distributions calculated using Compas...
A practical method was designed to verify the accuracy of dose distributions calculated using Compas...
We validate the dosimetric performance of COMPASS (R), a novel 3D quality assurance system for verif...
In this study, we evaluated the performance of a three-dimensional (3D) dose verification system, CO...
External radiotherapy is a common treatment technique for cancer. It has been shown that radiation t...
Purpose: Fast and reliable comprehensive quality assurance tools are required to validate the safety...
One of the most important aspects of quality assurance (QA) in radiation therapy is redundancy of pa...
Background and purpose: The requirements on the delivered dose in radical radiation therapy are extr...
Purpose: Aim of this study is to clinically implement the COMPASS 3D dosimetry system for pretreatme...
The main objective of this study was to make the transition from a film (2D) based pre-treatment IMR...
The COMPASS system (IBADosimetry) is a quality assurance (QA) tool which reconstructs 3D doses insid...
Radiation therapy aims at delivering a prescribed amount of radiation dose to cancerous targets whil...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
<p>3D dose verification has important advantages for comprehensive verification of advanced radiatio...
PURPOSE: Advanced radiotherapy treatments require appropriate quality assurance (QA) to verify 3D do...
A practical method was designed to verify the accuracy of dose distributions calculated using Compas...
A practical method was designed to verify the accuracy of dose distributions calculated using Compas...
We validate the dosimetric performance of COMPASS (R), a novel 3D quality assurance system for verif...
In this study, we evaluated the performance of a three-dimensional (3D) dose verification system, CO...
External radiotherapy is a common treatment technique for cancer. It has been shown that radiation t...
Purpose: Fast and reliable comprehensive quality assurance tools are required to validate the safety...
One of the most important aspects of quality assurance (QA) in radiation therapy is redundancy of pa...
Background and purpose: The requirements on the delivered dose in radical radiation therapy are extr...
Purpose: Aim of this study is to clinically implement the COMPASS 3D dosimetry system for pretreatme...
The main objective of this study was to make the transition from a film (2D) based pre-treatment IMR...
The COMPASS system (IBADosimetry) is a quality assurance (QA) tool which reconstructs 3D doses insid...
Radiation therapy aims at delivering a prescribed amount of radiation dose to cancerous targets whil...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
<p>3D dose verification has important advantages for comprehensive verification of advanced radiatio...