We have developed dual energy x-ray CT using monochromatic X-ray beams from synchrotron radiation. From the dual-energy X-ray CT , we can obtain distributions of an electron density and an effective atomic measured pe and Z images of some solution samples and medical materials by DECT. We will report of experimental results contributing to the treatment planning of radiation therapy and discuss an application possibility to material identification
Background and purpose: Dual energy CT (DECT) imaging can provide both the electron density rho(e) a...
The electron density is indispensable to the treatment planning for heavy-ion radiotherapy, so that ...
Proton therapy is the use of a proton beam rather than a traditional X-ray beam in the treatment of ...
Monochromatic x-ray CT at two different energies provides information about electron density without...
Monochromatic x-ray CT has advantages over conventional x-ray CT when using the data in treatment pl...
Knowledge of electron densities for materials is important for treatment planning for proton and hea...
Using a monochrome X-ray CT, the reconstructed image is the distribution of linear attenuation oeffi...
We have developed dual energy x-ray CT using monochromatic x-ray beams. From the dual-energy x-ray ...
The electron density is one of the most important element for thetreatment planning in the radiother...
Dual energy CT (DECT) scanners are nowadays available in many radiology departments. For radiotherap...
Dual-energy computed tomography (DECT) is an established method in the field of medical CT to obtain...
In dual-energy CT (DECT), two different x-ray spectra are used to acquire two image datasets of the ...
Radiotherapy and particle therapy treatment planning require accurate knowledge of the electron dens...
In this study, a simple post-reconstruction dual-energy computed tomography (CT) method is proposed....
The physical principles of dual-energy computed tomography (DECT) are as old as computed tomography ...
Background and purpose: Dual energy CT (DECT) imaging can provide both the electron density rho(e) a...
The electron density is indispensable to the treatment planning for heavy-ion radiotherapy, so that ...
Proton therapy is the use of a proton beam rather than a traditional X-ray beam in the treatment of ...
Monochromatic x-ray CT at two different energies provides information about electron density without...
Monochromatic x-ray CT has advantages over conventional x-ray CT when using the data in treatment pl...
Knowledge of electron densities for materials is important for treatment planning for proton and hea...
Using a monochrome X-ray CT, the reconstructed image is the distribution of linear attenuation oeffi...
We have developed dual energy x-ray CT using monochromatic x-ray beams. From the dual-energy x-ray ...
The electron density is one of the most important element for thetreatment planning in the radiother...
Dual energy CT (DECT) scanners are nowadays available in many radiology departments. For radiotherap...
Dual-energy computed tomography (DECT) is an established method in the field of medical CT to obtain...
In dual-energy CT (DECT), two different x-ray spectra are used to acquire two image datasets of the ...
Radiotherapy and particle therapy treatment planning require accurate knowledge of the electron dens...
In this study, a simple post-reconstruction dual-energy computed tomography (CT) method is proposed....
The physical principles of dual-energy computed tomography (DECT) are as old as computed tomography ...
Background and purpose: Dual energy CT (DECT) imaging can provide both the electron density rho(e) a...
The electron density is indispensable to the treatment planning for heavy-ion radiotherapy, so that ...
Proton therapy is the use of a proton beam rather than a traditional X-ray beam in the treatment of ...