Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still the standard imaging modality in proton therapy treatment planning and, in this context, the stoichiometric calibration method is considered to be the most accurate to establish a relationship between CT numbers and proton stopping power. This work revisits the SECT calibration for proton therapy treatment planning, with special emphasis on the stoichiometric method. Three different sets of tissue-substitutes of known elemental composition (Gammex, CIRS and Catphan) were scanned with the same scanning protocol. A stoichiometric fit was performed for each set of tissue-substitutes. Based on that, the CT number, relative electron density and r...
PURPOSE: In proton therapy planning, the accuracy of the Stopping Power Ratios (SPR) calculated in t...
A method to establish the relationship between CT number and effective density for therapeutic radia...
The purpose of this work was to evaluate the ability of single and dual energy computed tomography (...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Background and Purpose: The range uncertainty in particle therapy should be reduced to prevent healt...
Purpose: The range uncertainties in proton therapy is a problem in current treatment planning of can...
Dedicated methods of in-vivo verification of ion treatment based on the detection of secondary emitt...
Monte Carlo proton dose calculations requires mass densities calculated from the patient CT image. T...
While dose calculations are typically performed using a simplistic correspondence of Hounsfield unit...
International audienceThe purpose of this study was to determine the optimal dual-energy spectra for...
Proton therapy is the use of a proton beam rather than a traditional X-ray beam in the treatment of ...
Proton radiation therapy is gaining popularity because of the unique characteristics of its dose dis...
PURPOSE: The purpose of this work is to evaluate the performance of dual-energy CT (DECT) for determ...
Dual-energy computed tomography enables the determination of relative electron density and effective...
PURPOSE: In proton therapy planning, the accuracy of the Stopping Power Ratios (SPR) calculated in t...
A method to establish the relationship between CT number and effective density for therapeutic radia...
The purpose of this work was to evaluate the ability of single and dual energy computed tomography (...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Despite extensive research in dual-energy computed tomography (CT), single-energy CT (SECT) is still...
Background and Purpose: The range uncertainty in particle therapy should be reduced to prevent healt...
Purpose: The range uncertainties in proton therapy is a problem in current treatment planning of can...
Dedicated methods of in-vivo verification of ion treatment based on the detection of secondary emitt...
Monte Carlo proton dose calculations requires mass densities calculated from the patient CT image. T...
While dose calculations are typically performed using a simplistic correspondence of Hounsfield unit...
International audienceThe purpose of this study was to determine the optimal dual-energy spectra for...
Proton therapy is the use of a proton beam rather than a traditional X-ray beam in the treatment of ...
Proton radiation therapy is gaining popularity because of the unique characteristics of its dose dis...
PURPOSE: The purpose of this work is to evaluate the performance of dual-energy CT (DECT) for determ...
Dual-energy computed tomography enables the determination of relative electron density and effective...
PURPOSE: In proton therapy planning, the accuracy of the Stopping Power Ratios (SPR) calculated in t...
A method to establish the relationship between CT number and effective density for therapeutic radia...
The purpose of this work was to evaluate the ability of single and dual energy computed tomography (...