A PET camera is used to visualize the positron activity induced during protonbeam therapy in order to verify directly the proton-treatment plans. The positron emitters created are predominantly the 15O and 11C, whose total activity amounts to 12 MBq after an irradiation with 85 MeV protons, delivering 3 Gy in a volume of approximately 300 cm3. Although this method is a useful verification of patient set-up, care must be taken when deriving dose distributions from activity distributions. Correlation between both quantities is difficult, moreover at the last millimeters of their range, protons will no longer activate tissue. Due to the short half-lives the PET camera must be located close to the treatment facility
PURPOSE: To investigate the feasibility and value of positron emission tomography and computed tomog...
The aim of this thesis is to investigate the use of a dedicated system for proton therapy treatments...
Proton therapy can overcome the limitations of conventional radiotherapy due to the more selective e...
Positron emission tomography (PET), a tool commonly used for cancer staging and response monitoring,...
Compared to photon therapy, proton therapy allows a better conformation of the dose to the tumor vol...
Application of PET scanners to proton beam therapy monitoring is a promising solution to obtain the ...
Proton radiotherapy is a powerful tool in the local control of cancer. The advantages of proton radi...
In vivo dose delivery verification in proton therapy can be performed by positron emission tomograph...
Positron emission tomography is so far the only method for in-vivo dose delivery verification in had...
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...
Abstract-- Earlier works, including a recent one at BNL, demonstrated that PET is a promising techni...
Positron emission tomography is so far the only method for in-vivo dose delivery verification in had...
PURPOSE: To investigate the feasibility and value of positron emission tomography and computed tomog...
The aim of this thesis is to investigate the use of a dedicated system for proton therapy treatments...
Proton therapy can overcome the limitations of conventional radiotherapy due to the more selective e...
Positron emission tomography (PET), a tool commonly used for cancer staging and response monitoring,...
Compared to photon therapy, proton therapy allows a better conformation of the dose to the tumor vol...
Application of PET scanners to proton beam therapy monitoring is a promising solution to obtain the ...
Proton radiotherapy is a powerful tool in the local control of cancer. The advantages of proton radi...
In vivo dose delivery verification in proton therapy can be performed by positron emission tomograph...
Positron emission tomography is so far the only method for in-vivo dose delivery verification in had...
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...
Abstract-- Earlier works, including a recent one at BNL, demonstrated that PET is a promising techni...
Positron emission tomography is so far the only method for in-vivo dose delivery verification in had...
PURPOSE: To investigate the feasibility and value of positron emission tomography and computed tomog...
The aim of this thesis is to investigate the use of a dedicated system for proton therapy treatments...
Proton therapy can overcome the limitations of conventional radiotherapy due to the more selective e...