Radiant energy – Irradiation of objects or material – Ion or electron beam irradiation
Reexamination Certificate
2003-06-06
2004-08-17
Lee, John R. (Department: 2881)
Radiant energy
Irradiation of objects or material
Ion or electron beam irradiation
C315S501000, C315S505000, C315S507000
Reexamination Certificate
active
06777700
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a particle beam irradiation system, and more particularly to a particle beam irradiation system for use as a particle beam therapy system for exposing a diseased part to a proton, carbon, or other charged particle beam for therapy purposes, a material irradiation system for exposing a material to a charged particle beam, a food irradiation system for exposing food to a charged particle beam, or a radioisotope production system based on a charged particle beam.
A conventional particle beam therapy system comprises a charged particle beam generation apparatus, a beam transport, and a rotary irradiation device. The charged particle beam generation apparatus includes a synchrotron (cyclotron) as an accelerator. After being accelerated to a predefined energy, a charged particle beam (hereinafter referred to as an ion beam) travels to the irradiation device via the beam transport (hereinafter referred to as the first beam transport). The rotary irradiation device includes an irradiation device beam transport (hereinafter referred to as the second beam transport), an irradiation apparatus, and a rotating device (rotary gantry) for rotating the second beam transport and irradiation apparatus as an assembly. The ion beam passes through the second beam transport and then falls on a cancerous part of a patient via the irradiation apparatus.
The irradiation apparatus shapes and emits an ion beam, which is generated by the charged particle beam generation apparatus, in accordance with the shape of a diseased part targeted for irradiation. Roughly speaking, the irradiation apparatus can be divided into three types. The first type is an irradiation apparatus based on a scatterer method. The second type is an irradiation apparatus based on a wobbling method (JP-A No. 211292/1998 and JP-A No. 202047/2000). The third type is an irradiation apparatus based on a scanning method (JP-A No. 199700/1998).
When the interior of a patient's body is to be irradiated with an ion beam emitted from the irradiation apparatus, it is desirable that the radiation dose distribution be uniform in the direction of ion beam propagation (the direction of the depth within the patient's body) and in the direction perpendicular to the direction of ion beam propagation. Such uniformity of radiation dose distribution is especially important within a cancerous area. This uniformity is desired no matter which one of the above-mentioned three types of irradiation apparatuses is used for ion beam irradiation. In a particle beam therapy system containing the aforementioned conventional irradiation apparatus, however, it has been difficult to maintain a high degree of radiation dose distribution uniformity in the direction of the depth while keeping a high radiation dose level particularly for a bulky diseased part (region targeted for irradiation).
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a particle beam irradiation system that is capable of increasing the uniformity of radiation dose distribution in the direction of the depth of a diseased part.
To achieve the above object, the present invention provides an irradiation apparatus in which at least either a scattering device or a Bragg peak spreading device is mounted in such a manner that the device is movable in the direction of charged particle beam propagation. Since at least either the scattering device or Bragg peak spreading device can move in the direction of charged particle beam propagation, it is possible to increase the uniformity of radiation dose distribution for the irradiation target that is exposed to a charged particle beam.
Preferably, at least one of a scattering device, a range adjustment device, and a Bragg peak spreading device is mounted in the irradiation apparatus in such a manner that the device is movable in the direction of charged particle beam propagation. Since at least either one of the scattering device, range adjustment device, and Bragg peak spreading device can move in the direction of charged particle beam propagation, it is possible to increase the uniformity of radiation dose distribution for the irradiation target that is exposed to a charged particle beam.
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Akiyama Hiroshi
Fujimaki Hisataka
Matsuda Koji
Yanagisawa Masaki
Dickstein , Shapiro, Morin & Oshinsky, LLP
Gurzo Paul M.
Hitachi , Ltd.
Lee John R.
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