The higher physical selectivity of proton therapy demands higher accuracy in monitoring of the delivered dose, especially when the target volume is located next to critical organs and a fractionated therapy is applied. A method to verify a treatment plan and to ensure the high quality of the hadrontherapy is to use Positron Emission Tomography (PET), which takes advantage of the nuclear reactions between protons and nuclei in the tissue during irradiation producing β+-emitting isotopes. Unfortunately, the PET image is not directly proportional to the delivered radiation dose distribution; this is the reason why, at the present time, the verification of depth dose profiles with PET techniques is limited to a comparison between the measu...
PURPOSE: To investigate the feasibility and value of positron emission tomography and computed tomog...
Application of PET scanners to proton beam therapy monitoring is a promising solution to obtain the ...
The in-beam PET is a novel PET application to image the beta+ activity induced in biological tissue...
The higher physical selectivity of proton therapy demands higher accuracy in monitoring of the deliv...
Purpose: A non-invasive method for verification of treatment delivery to ensure the high quality of ...
Positron emission tomography (PET), a tool commonly used for cancer staging and response monitoring,...
Proton therapy can overcome the limitations of conventional radiotherapy due to the more selective e...
Proton therapy is a treatment modality of increasing utility in clinical radiation oncology mostly b...
The interest in positron emission tomography (PET) as a tool for treatment verification in proton th...
Proton therapy is a treatment modality of increasing utility in clinical radiation oncology mostly b...
Ion beam irradiations can deliver conformal dose distributions minimizing damage to healthy tissues ...
A PET camera is used to visualize the positron activity induced during protonbeam therapy in order t...
Abstract-- Earlier works, including a recent one at BNL, demonstrated that PET is a promising techni...
Proton therapy exploits proton interactions with matter to treat deep seated tumors with a highly co...
The aim of this thesis is to investigate the use of a dedicated system for proton therapy treatments...
PURPOSE: To investigate the feasibility and value of positron emission tomography and computed tomog...
Application of PET scanners to proton beam therapy monitoring is a promising solution to obtain the ...
The in-beam PET is a novel PET application to image the beta+ activity induced in biological tissue...
The higher physical selectivity of proton therapy demands higher accuracy in monitoring of the deliv...
Purpose: A non-invasive method for verification of treatment delivery to ensure the high quality of ...
Positron emission tomography (PET), a tool commonly used for cancer staging and response monitoring,...
Proton therapy can overcome the limitations of conventional radiotherapy due to the more selective e...
Proton therapy is a treatment modality of increasing utility in clinical radiation oncology mostly b...
The interest in positron emission tomography (PET) as a tool for treatment verification in proton th...
Proton therapy is a treatment modality of increasing utility in clinical radiation oncology mostly b...
Ion beam irradiations can deliver conformal dose distributions minimizing damage to healthy tissues ...
A PET camera is used to visualize the positron activity induced during protonbeam therapy in order t...
Abstract-- Earlier works, including a recent one at BNL, demonstrated that PET is a promising techni...
Proton therapy exploits proton interactions with matter to treat deep seated tumors with a highly co...
The aim of this thesis is to investigate the use of a dedicated system for proton therapy treatments...
PURPOSE: To investigate the feasibility and value of positron emission tomography and computed tomog...
Application of PET scanners to proton beam therapy monitoring is a promising solution to obtain the ...
The in-beam PET is a novel PET application to image the beta+ activity induced in biological tissue...