Add to ORKGCurrent protocols for the measurement of proton dose focus on measurements under reference conditions; methods for measuring dose under patient-specific conditions have not been standardized. In particular, it is unclear whether dose in patient-specific fields can be determined more reliably with or without the presence of the patient-specific range compensator. The aim of this study was to quantitatively assess the reliability of two methods for measuring dose per monitor unit (DMU) values for small-field treatment portals: one with the range compensator and one without the range compensator. A Monte Carlo model of the Proton Therapy Center-Houston double-scattering nozzle was created, and estimates of DMU values were obtained from 14 simu...
In particle radiotherapy, range uncertainty is an important issue that needs to be overcome. Because...
Proton therapy exploits proton interactions with matter to treat deep seated tumors with a highly co...
In treatment planning for proton radiotherapy, the dose measured in water is applied to the patient ...
Purpose: To determine whether dose per monitor unit values (D/MU) for small‐field proton therapy tre...
Calibrating the dose per monitor unit (DMU) for individual patients is important to deliver the pres...
Purpose: Interest in the tissue sparing benefit of proton therapy is growing. For lung and prostate ...
In radiation therapy, it is necessary to preset a monitor unit in an irradiation control system to d...
This study quantifies the dosimetric accuracy of a commercial treatment planning system as functions...
Purpose: To evaluate the dependence of central axis doses and output factors of square fields formed...
Purpose: In proton therapy, complex density heterogeneities within the beam path constitute a challe...
It is important for proton therapy to calculate accurately dose distributions in treatment planning....
Purpose: Dose calculation accuracy of the Varian Eclipse treatment planning system (TPS) is empirica...
Includes bibliographical references (pages 33-34).The purpose of this thesis is to model the output ...
Monte Carlo (MC)-based dose calculations are generally superior to analytical dose calculations (ADC...
<div><p>In particle radiotherapy, range uncertainty is an important issue that needs to be overcome....
In particle radiotherapy, range uncertainty is an important issue that needs to be overcome. Because...
Proton therapy exploits proton interactions with matter to treat deep seated tumors with a highly co...
In treatment planning for proton radiotherapy, the dose measured in water is applied to the patient ...
Purpose: To determine whether dose per monitor unit values (D/MU) for small‐field proton therapy tre...
Calibrating the dose per monitor unit (DMU) for individual patients is important to deliver the pres...
Purpose: Interest in the tissue sparing benefit of proton therapy is growing. For lung and prostate ...
In radiation therapy, it is necessary to preset a monitor unit in an irradiation control system to d...
This study quantifies the dosimetric accuracy of a commercial treatment planning system as functions...
Purpose: To evaluate the dependence of central axis doses and output factors of square fields formed...
Purpose: In proton therapy, complex density heterogeneities within the beam path constitute a challe...
It is important for proton therapy to calculate accurately dose distributions in treatment planning....
Purpose: Dose calculation accuracy of the Varian Eclipse treatment planning system (TPS) is empirica...
Includes bibliographical references (pages 33-34).The purpose of this thesis is to model the output ...
Monte Carlo (MC)-based dose calculations are generally superior to analytical dose calculations (ADC...
<div><p>In particle radiotherapy, range uncertainty is an important issue that needs to be overcome....
In particle radiotherapy, range uncertainty is an important issue that needs to be overcome. Because...
Proton therapy exploits proton interactions with matter to treat deep seated tumors with a highly co...
In treatment planning for proton radiotherapy, the dose measured in water is applied to the patient ...