Charged particle cancer therapy patient positioning method and apparatus
First Claim
1. A method for positioning a tumor of a patient for treatment with positively charged particles, comprising the steps of:
- positioning the patient with a patient positioning system, said patient positioning system comprising an upper body support, wherein said upper body support comprises a semi-upright patient support surface;
after said step of positioning, collecting multi-field images of the tumor in the patient;
developing a tumor irradiation plan;
repositioning the tumor using said patient positioning system;
after said step of repositioning, verifying position of the tumor;
irradiating the tumor of the patient with the positively charged particles from a charged particle system, said charged particle system comprising a charged particle beam path, said charge particle beam path passing within about six inches of said semi-upright patient support surface;
repeating said step of irradiating in at least four rotation positions;
controlling an energy of the charged particle using an accelerator in said charged particle system, said accelerator comprising;
a set of at least ten coils;
a set of at least ten wire loops; and
a set of at least ten microcircuits, each of said at least ten microcircuits integrated to a corresponding one of said at least ten wire loops, wherein each of said at least ten wire loops completes at least one turn about at least one of said at least ten coils; and
using a radio-frequency synthesizer, sending a low voltage signal to each of said at least ten microcircuits, each of said at least ten microcircuits amplifying said low voltage signal yielding an acceleration voltage.
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Abstract
The invention comprises a patient positioning and/or repositioning system, such as a laying, semi-vertical, or seated patient positioning, alignment, and/or control method and apparatus used in conjunction with multi-axis charged particle radiation therapy. Patient positioning constraints optionally include one or more of: a seat support, a back support, a head support, an arm support, a knee support, and a foot support. One or more of the positioning constraints are preferably movable and/or under computer control for rapid positioning, repositioning, and/or immobilization of the patient. The system optionally uses an X-ray beam that lies in substantially the same path as a proton beam path of a particle beam cancer therapy system. The generated image is usable for: fine tuning body alignment relative to the proton beam path, to control the charged particle beam path to accurately and precisely target the tumor, and/or in system verification and validation.
358 Citations
6 Claims
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1. A method for positioning a tumor of a patient for treatment with positively charged particles, comprising the steps of:
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positioning the patient with a patient positioning system, said patient positioning system comprising an upper body support, wherein said upper body support comprises a semi-upright patient support surface; after said step of positioning, collecting multi-field images of the tumor in the patient; developing a tumor irradiation plan; repositioning the tumor using said patient positioning system; after said step of repositioning, verifying position of the tumor; irradiating the tumor of the patient with the positively charged particles from a charged particle system, said charged particle system comprising a charged particle beam path, said charge particle beam path passing within about six inches of said semi-upright patient support surface; repeating said step of irradiating in at least four rotation positions; controlling an energy of the charged particle using an accelerator in said charged particle system, said accelerator comprising; a set of at least ten coils; a set of at least ten wire loops; and a set of at least ten microcircuits, each of said at least ten microcircuits integrated to a corresponding one of said at least ten wire loops, wherein each of said at least ten wire loops completes at least one turn about at least one of said at least ten coils; and using a radio-frequency synthesizer, sending a low voltage signal to each of said at least ten microcircuits, each of said at least ten microcircuits amplifying said low voltage signal yielding an acceleration voltage. - View Dependent Claims (2, 3, 4, 5)
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6. A method for positioning a tumor of a patient for treatment with positively charged particles, comprising the steps of:
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positioning the patient with a patient positioning system, said patient positioning system comprising an upper body support, wherein said upper body support comprises a semi-upright patient support surface; after said step of positioning, collecting multi-field images of the tumor in the patient; developing a tumor irradiation plan; repositioning the tumor using said patient positioning system; after said step of repositioning, verifying position of the tumor; irradiating the tumor of the patient with the positively charged particles from a charged particle system, said charged particle system comprising a charged particle beam path, said charge particle beam path passing within about six inches of said semi-upright patient support surface; repeating said step of irradiating in at least four rotation positions; and controlling a magnetic field in a bending magnet of a synchrotron in said charged particle system, said bending magnet comprising; a tapered iron based core adjacent a gap, said tapered iron based core comprising a surface polish of less than about ten microns roughness; and a focusing geometry comprising; a first cross-sectional distance of said tapered iron based core forming an edge of said gap, a second cross-sectional distance of said iron based core not in contact with said gap, wherein said second cross-sectional distance is at least fifty percent larger than said first cross-sectional distance, said first cross-sectional distance running parallel said second cross-sectional distance.
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Specification