Add to ORKGHigh intensity lasers have been shown to accelerate protons to high energies. These protons are energetic enough to be used in treating cancers and tumors up to three centimeters deep. Protons are advantageous to use because they do not cause as much damage to healthy cells in the body then other radiation sources, e.g. photons. Simulations using MCNP show the radiation dose received by an intraocular melanoma would require 106 protons to deliver a dose of 1.2 Gy to the tumor. The simulations also show that protons do a better job of giving less dosage to healthy cells compared to the same dose delivered using x-rays. Further research needs to be done to find ways to accelerate protons to higher energies.No embarg
In the fight against tumors, different types of cancer require different ways of treatment: surgery...
Aim: During proton therapy, neutrons are generated through the interactions of a proton beam with th...
Aim: To analyse the dosimetric effects of density changes, calculation curve errors and geometric er...
High intensity lasers have been shown to accelerate protons to high energies. These protons are ene...
University of Minnesota Ph.D. dissertation. March 2017. Major: Biophysical Sciences and Medical Phys...
Purpose: This study aimed to investigate the microdosimetric properties of monoenergetic proton beam...
The Particle Therapy (PT) is a particular kind of radiation therapy in which accelerated light ions ...
Intensity modulated radiation therapy (IMRT) is a type of radiation therapy that tries to minimize t...
The purpose of this thesis is to develop methods and materials for radiation therapy optimization fr...
The Space Telescope (ST) is subjected to charged particle strikes in its space environment. ST's onb...
Background: The use of protons was first suggested for use in treating cancer in 1946, due to its pr...
Protonentherapie is een vorm van radiotherapie die steeds meer wordt toegepast bij de behandeling va...
Tumor radiotherapy with charged particles offers superior properties in covering the tumor with radi...
Radiation therapy is a non-invasive method of treating cancer. The purpose of it is to stop cancer c...
In conventional radiotherapy for tumor treatment, photons are used to impart an energetic dose insid...
In the fight against tumors, different types of cancer require different ways of treatment: surgery...
Aim: During proton therapy, neutrons are generated through the interactions of a proton beam with th...
Aim: To analyse the dosimetric effects of density changes, calculation curve errors and geometric er...
High intensity lasers have been shown to accelerate protons to high energies. These protons are ene...
University of Minnesota Ph.D. dissertation. March 2017. Major: Biophysical Sciences and Medical Phys...
Purpose: This study aimed to investigate the microdosimetric properties of monoenergetic proton beam...
The Particle Therapy (PT) is a particular kind of radiation therapy in which accelerated light ions ...
Intensity modulated radiation therapy (IMRT) is a type of radiation therapy that tries to minimize t...
The purpose of this thesis is to develop methods and materials for radiation therapy optimization fr...
The Space Telescope (ST) is subjected to charged particle strikes in its space environment. ST's onb...
Background: The use of protons was first suggested for use in treating cancer in 1946, due to its pr...
Protonentherapie is een vorm van radiotherapie die steeds meer wordt toegepast bij de behandeling va...
Tumor radiotherapy with charged particles offers superior properties in covering the tumor with radi...
Radiation therapy is a non-invasive method of treating cancer. The purpose of it is to stop cancer c...
In conventional radiotherapy for tumor treatment, photons are used to impart an energetic dose insid...
In the fight against tumors, different types of cancer require different ways of treatment: surgery...
Aim: During proton therapy, neutrons are generated through the interactions of a proton beam with th...
Aim: To analyse the dosimetric effects of density changes, calculation curve errors and geometric er...