Introduction Commercial treatment planning systems employ a variety of dose calculation algorithms to plan and predict the dose distributions a patient receives during external beam radiation therapy. Traditionally, the Radiological Physics Center has relied on measurements to assure that institutions participating in the National Cancer Institute sponsored clinical trials administer radiation in doses that are clinically comparable to those of other participating institutions. To complement the effort of the RPC, an independent dose calculation tool needs to be developed that will enable a generic method to determine patient dose distributions in three dimensions and to perform retrospective analysis of radiation delivered to patients wh...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
BACKGROUND Vendor-independent Monte Carlo (MC) dose calculation (IDC) for patient-specific qualit...
A prerequisite for modern radiotherapy is the ability to accurately determine the absorbed dose (D) ...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
The status of radiotherapy as an important treatment modality for cancer is indisputable. In externa...
Purpose: The accuracy of delivered dose is essential to the quality of radiotherapy treatment and tu...
The Monte Carlo (MC) method has been shown through many research studies to calculate accurate dose ...
Introduction: Recent advances in the planning and delivery of radiotherapy treatments have resulted ...
Purpose: A factor that greatly limits the use of Monte Carlo methods for patient specific dose calcu...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
AbstractAimThe accuracy of treatment planning systems is of vital importance in treatment outcomes i...
Background. The accuracy of dose calculation is crucial for success of the radiotherapy treatment. O...
Monte Carlo (MC) is rapidly becoming the preferred algorithm for radiotherapy treatment planning sys...
PURPOSE: Evaluate custom beam models for a second check dose calculation system using statistically ...
The success of the implementations of a radiotherapy treatment planning system is determined by the ...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
BACKGROUND Vendor-independent Monte Carlo (MC) dose calculation (IDC) for patient-specific qualit...
A prerequisite for modern radiotherapy is the ability to accurately determine the absorbed dose (D) ...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
The status of radiotherapy as an important treatment modality for cancer is indisputable. In externa...
Purpose: The accuracy of delivered dose is essential to the quality of radiotherapy treatment and tu...
The Monte Carlo (MC) method has been shown through many research studies to calculate accurate dose ...
Introduction: Recent advances in the planning and delivery of radiotherapy treatments have resulted ...
Purpose: A factor that greatly limits the use of Monte Carlo methods for patient specific dose calcu...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
AbstractAimThe accuracy of treatment planning systems is of vital importance in treatment outcomes i...
Background. The accuracy of dose calculation is crucial for success of the radiotherapy treatment. O...
Monte Carlo (MC) is rapidly becoming the preferred algorithm for radiotherapy treatment planning sys...
PURPOSE: Evaluate custom beam models for a second check dose calculation system using statistically ...
The success of the implementations of a radiotherapy treatment planning system is determined by the ...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
BACKGROUND Vendor-independent Monte Carlo (MC) dose calculation (IDC) for patient-specific qualit...
A prerequisite for modern radiotherapy is the ability to accurately determine the absorbed dose (D) ...