Add to ORKGThis work provides a quantitative assessment of helium ion CT (HeCT) for particle therapy treatment planning. For the first time, HeCT based range prediction accuracy in a heterogeneous tissue phantom is presented and compared to single-energy x-ray CT (SECT), dual-energy x-ray CT (DECT) and proton CT (pCT). HeCT and pCT scans were acquired using the US pCT collaboration prototype particle CT scanner at the Heidelberg Ion-Beam Therapy Center. SECT and DECT scans were done with a Siemens Somatom Definition Flash and converted to RSP. A Catphan CTP404 module was used to study the RSP accuracy of HeCT. A custom phantom of 20 cm diameter containing several tissue equivalent plastic cubes was used to assess the spatial resolution of HeCT and com...
In particle therapy, the x-ray based treatment planning converting photon attenuation values to rela...
Accuracy in the treatment planning (TP) of proton therapy (PT) depends on the precision of the infor...
International audienceProton computed tomography (CT) has been described as a solution for imaging t...
This work provides a quantitative assessment of helium ion CT (HeCT) for particle therapy treatment ...
A precise relative stopping power map of the patient is crucial for accurate particle therapy. Charg...
International audienceObjective. The use of ion computed tomography (CT) promises to yield improved ...
PurposeTo evaluate the accuracy of relative stopping power and spatial resolution of images reconstr...
Ion computed tomography (iCT) represents a potential replacement for x-ray CT (xCT) in ion therapy t...
Radiation therapy with protons and heavier ions is an attractive form of cancer treatment that could...
Particle therapy exploits the highly localized depth dose profile of protons and light ions to deliv...
Particle therapy has become an appealing therapeutic option for patients with various tumor types. T...
<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...
In particle therapy, the x-ray based treatment planning converting photon attenuation values to rela...
Accuracy in the treatment planning (TP) of proton therapy (PT) depends on the precision of the infor...
International audienceProton computed tomography (CT) has been described as a solution for imaging t...
This work provides a quantitative assessment of helium ion CT (HeCT) for particle therapy treatment ...
A precise relative stopping power map of the patient is crucial for accurate particle therapy. Charg...
International audienceObjective. The use of ion computed tomography (CT) promises to yield improved ...
PurposeTo evaluate the accuracy of relative stopping power and spatial resolution of images reconstr...
Ion computed tomography (iCT) represents a potential replacement for x-ray CT (xCT) in ion therapy t...
Radiation therapy with protons and heavier ions is an attractive form of cancer treatment that could...
Particle therapy exploits the highly localized depth dose profile of protons and light ions to deliv...
Particle therapy has become an appealing therapeutic option for patients with various tumor types. T...
<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...
In particle therapy, the x-ray based treatment planning converting photon attenuation values to rela...
Accuracy in the treatment planning (TP) of proton therapy (PT) depends on the precision of the infor...
International audienceProton computed tomography (CT) has been described as a solution for imaging t...