Add to ORKGTreatment planning in proton therapy requires the calculation of absorbed dose distributions on beam shaping components and the patient anatomy. Analytical pencil-beam dose algorithms commonly used are not always accurate enough. The Monte Carlo approach is more accurate but extremely computationally intensive. The Fast Dose Calculator, a track-repeating algorithm, has been proposed as an alternative fast and accurate dose calculation. In this work FDC is applied to a proton therapy patient thoracic anatomy. © 2010 Published by Elsevier Ltd. All rights reserved
Radiotherapy is used in more than 50% of cancer treatments and is thus of the utmost importance in t...
The main advantage for using protons in radiotherapy is their finite range in patients, allowing for...
Radiation therapy is one of the main treatments for cancer care. It consists in irradiating the tumo...
The Monte Carlo method is used to provide accurate dose estimates in proton radiation therapy resear...
Monte Carlo codes are utilized for accurate dose calculations in proton radiation therapy research. ...
Treatment planning for proton tumor therapy requires a fast and accurate dose-calculation method. We...
Objective.Magnetic resonance (MR) is an innovative technology for online image guidance in conventio...
Purpose: Demonstrate the feasibility of utilizing the Fast Dose Calculator (FDC), a track repeating ...
Purpose: Monte Carlo (MC) dose calculation is generally superior to analytical dose calculation (ADC...
In the context of the particle therapy a crucial role is played by Treatment Planning Systems (TPSs)...
Intensity modulated proton therapy (IMPT) plans precisely balance thousands of proton beamlets, givi...
Radiotherapy delivered using scanned beams of protons enables greater conformity between the dose di...
Purpose: In proton therapy, complex density heterogeneities within the beam path constitute a challe...
Purpose: In proton therapy, complex density heterogeneities within the beam path constitute a challe...
Purpose/Objective(s): The limited accuracy of analytical dose calculation algorithms (ADC) currently...
Radiotherapy is used in more than 50% of cancer treatments and is thus of the utmost importance in t...
The main advantage for using protons in radiotherapy is their finite range in patients, allowing for...
Radiation therapy is one of the main treatments for cancer care. It consists in irradiating the tumo...
The Monte Carlo method is used to provide accurate dose estimates in proton radiation therapy resear...
Monte Carlo codes are utilized for accurate dose calculations in proton radiation therapy research. ...
Treatment planning for proton tumor therapy requires a fast and accurate dose-calculation method. We...
Objective.Magnetic resonance (MR) is an innovative technology for online image guidance in conventio...
Purpose: Demonstrate the feasibility of utilizing the Fast Dose Calculator (FDC), a track repeating ...
Purpose: Monte Carlo (MC) dose calculation is generally superior to analytical dose calculation (ADC...
In the context of the particle therapy a crucial role is played by Treatment Planning Systems (TPSs)...
Intensity modulated proton therapy (IMPT) plans precisely balance thousands of proton beamlets, givi...
Radiotherapy delivered using scanned beams of protons enables greater conformity between the dose di...
Purpose: In proton therapy, complex density heterogeneities within the beam path constitute a challe...
Purpose: In proton therapy, complex density heterogeneities within the beam path constitute a challe...
Purpose/Objective(s): The limited accuracy of analytical dose calculation algorithms (ADC) currently...
Radiotherapy is used in more than 50% of cancer treatments and is thus of the utmost importance in t...
The main advantage for using protons in radiotherapy is their finite range in patients, allowing for...
Radiation therapy is one of the main treatments for cancer care. It consists in irradiating the tumo...