Add to ORKGThe requirements for an accelerator and a beam-delivery system for medical application are described(pointing out terms of heavy-particle radiotherapy), based on 15 years of experience with carbon-ion radiotherapy at HIMAC. The present heavy-particle radiotherapy and system are reviewedhere. With a view to further development of carbon-ion radiotherapy,recent progress in heavyparticle radiotherapy and a new system are also described. Finally, the clinical applications aresummarize
Heavy-ion beams are very suitable for the treatment of deeply seated cancer because of an excellent ...
Heavy ion radiotherapy awakens worldwide interest recently. The clinical results obtained by the Hea...
Heavy ion radiotherapy awakens worldwide interest recently. The clinical results obtained by the Hea...
The requirements for an accelerator and a beam-delivery system for medical application are described...
Clinical trail of the carbon-ion radiotherapy at HIMAC (Heavy Ion Medical Accelerator in Chiba) was ...
Heavy-ion therapy is one of the important methods for the cancer treatment. More than 3400 patients ...
Since 1994, HIMAC has carried out clinical studies and treatments for more than 9000 cancer patients...
Beams of heavy charged particles like carbon or oxygen ions represent the ultimate tool of external ...
The first clinical trial with a carbon-ion beam generated from HIMAC was conducted in June 1994. The...
1.Heavy-ion radiotherapy has two clear advantages over other types of radiation therapies. One is t...
Background In 1994, NIRS launched carbon ion radiotherapy generated by the Heavy Ion Medical Acceler...
Radiation therapy for cancer by using heavy ions has attracted considerable attention. The accelerat...
Heavy-ion beams are very suitable for the treatment of deeply seated cancer because of an excellent ...
The first clinical trial with a carbon-ion beam generated from HIMAC was conducted in June 1994. The...
Heavy charged particles are the most advanced tool of an external subcutane radiotherapy of deep sea...
Heavy-ion beams are very suitable for the treatment of deeply seated cancer because of an excellent ...
Heavy ion radiotherapy awakens worldwide interest recently. The clinical results obtained by the Hea...
Heavy ion radiotherapy awakens worldwide interest recently. The clinical results obtained by the Hea...
The requirements for an accelerator and a beam-delivery system for medical application are described...
Clinical trail of the carbon-ion radiotherapy at HIMAC (Heavy Ion Medical Accelerator in Chiba) was ...
Heavy-ion therapy is one of the important methods for the cancer treatment. More than 3400 patients ...
Since 1994, HIMAC has carried out clinical studies and treatments for more than 9000 cancer patients...
Beams of heavy charged particles like carbon or oxygen ions represent the ultimate tool of external ...
The first clinical trial with a carbon-ion beam generated from HIMAC was conducted in June 1994. The...
1.Heavy-ion radiotherapy has two clear advantages over other types of radiation therapies. One is t...
Background In 1994, NIRS launched carbon ion radiotherapy generated by the Heavy Ion Medical Acceler...
Radiation therapy for cancer by using heavy ions has attracted considerable attention. The accelerat...
Heavy-ion beams are very suitable for the treatment of deeply seated cancer because of an excellent ...
The first clinical trial with a carbon-ion beam generated from HIMAC was conducted in June 1994. The...
Heavy charged particles are the most advanced tool of an external subcutane radiotherapy of deep sea...
Heavy-ion beams are very suitable for the treatment of deeply seated cancer because of an excellent ...
Heavy ion radiotherapy awakens worldwide interest recently. The clinical results obtained by the Hea...
Heavy ion radiotherapy awakens worldwide interest recently. The clinical results obtained by the Hea...