Add to ORKGMagnetic focusing of protons is a promising approach to improve patient radiation dose distribution in proton radiosurgery. The paths of individual protons are affected by multiple atomic deflections (multiple Coulomb scattering [MCS]) and affect overall beam characteristics in the patient. The purpose of this project is to account for the effects of MCS in the optimization of focal lengths in magnetically focused proton radiosurgery
International audienceProton minibeam radiation therapy (pMBRT) is a novel therapeutic strategy that...
Proton MiniBeam Radiation Therapy (pMBRT) is a novel strategy that combines the benefits of minibeam...
International audiencePURPOSE:The dose tolerances of normal tissues continue to be the main barrier ...
Magnetic focusing of protons is a promising approach to improve patient radiation dose distribution ...
Proton therapy is an advantageous choice for the irradiation of tumors in proximity of critical stru...
The main objective of radiotherapy is to exploit the curative potential of ionizing radiation while ...
Background and purpose: Monte Carlo simulations as well as analytical computations of proton transpo...
Purpose: Accurate modeling of multiple Coulomb scattering (MCS) of heavy charged particles is impera...
Objective: To investigate dosimetric deviations in scanning protons for Bragg-peak position shifts, ...
Combining magnetic-resonance imaging (MRI) and proton therapy (PT) using pencil-beam scanning (PBS) ...
Monte Carlo simulations are increasingly used for dose calculations in proton therapy due to its inh...
International audience(1) Background: Proton minibeam radiation therapy (pMBRT) is a novel therapeut...
PURPOSE: This paper investigates, via magnetic modeling and Monte Carlo simulation, the ability to...
Purpose: To develop a pencil beam dose calculation algorithm for scanned proton beams that improves ...
Purpose: This paper investigates, via magnetic modeling and Monte Carlo simulation, the ability to d...
International audienceProton minibeam radiation therapy (pMBRT) is a novel therapeutic strategy that...
Proton MiniBeam Radiation Therapy (pMBRT) is a novel strategy that combines the benefits of minibeam...
International audiencePURPOSE:The dose tolerances of normal tissues continue to be the main barrier ...
Magnetic focusing of protons is a promising approach to improve patient radiation dose distribution ...
Proton therapy is an advantageous choice for the irradiation of tumors in proximity of critical stru...
The main objective of radiotherapy is to exploit the curative potential of ionizing radiation while ...
Background and purpose: Monte Carlo simulations as well as analytical computations of proton transpo...
Purpose: Accurate modeling of multiple Coulomb scattering (MCS) of heavy charged particles is impera...
Objective: To investigate dosimetric deviations in scanning protons for Bragg-peak position shifts, ...
Combining magnetic-resonance imaging (MRI) and proton therapy (PT) using pencil-beam scanning (PBS) ...
Monte Carlo simulations are increasingly used for dose calculations in proton therapy due to its inh...
International audience(1) Background: Proton minibeam radiation therapy (pMBRT) is a novel therapeut...
PURPOSE: This paper investigates, via magnetic modeling and Monte Carlo simulation, the ability to...
Purpose: To develop a pencil beam dose calculation algorithm for scanned proton beams that improves ...
Purpose: This paper investigates, via magnetic modeling and Monte Carlo simulation, the ability to d...
International audienceProton minibeam radiation therapy (pMBRT) is a novel therapeutic strategy that...
Proton MiniBeam Radiation Therapy (pMBRT) is a novel strategy that combines the benefits of minibeam...
International audiencePURPOSE:The dose tolerances of normal tissues continue to be the main barrier ...