Intensity modulated radiation therapy planning system
First Claim
1. A method for planning an intensity modulated radiation therapy system comprising outlining a 3D target volume, providing relative radiation intensities of the 3D regions, including target and normal tissues, a) selecting specific beam directions for the system to use and b) optimizing the system using an arcing paradigm;
- back-projecting the given intensities to the selected beam entry portals;
sub-dividing each entry portal into discrete dose elements;
applying thereto a cost function that scores the goodness of the plan by positively rewarding doses in selected regions and negatively rewarding doses in protected regions, and adjusting the weights of each of the dose elements to increase the overall score.
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Abstract
A method for planning an intensity modulated radiation therapy system comprising outlining a 3D target volume, providing relative radiation intensities of the 3D, a) selecting specific beam directions for the system to use and b) optimizing the system using an arcing paradigm; back-projecting the given intensities to the selected beam entry portals; sub-dividing each entry portal into discrete dose elements; applying thereto a cost function that scores the goodness of the plan by positively rewarding doses in selected regions and negatively rewarding doses in protected regions, and adjusting the weights of each of the dose elements to increase the overall score.
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Citations
1 Claim
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1. A method for planning an intensity modulated radiation therapy system comprising outlining a 3D target volume, providing relative radiation intensities of the 3D regions, including target and normal tissues, a) selecting specific beam directions for the system to use and b) optimizing the system using an arcing paradigm;
- back-projecting the given intensities to the selected beam entry portals;
sub-dividing each entry portal into discrete dose elements;
applying thereto a cost function that scores the goodness of the plan by positively rewarding doses in selected regions and negatively rewarding doses in protected regions, and adjusting the weights of each of the dose elements to increase the overall score.
- back-projecting the given intensities to the selected beam entry portals;
Specification
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- Resources
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Current AssigneeUniversity of Florida (State University System of Florida)
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Original AssigneeUniversity of Florida (State University System of Florida)
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InventorsBova, Frank J.
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Primary Examiner(s)Glick, Edward J.
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Assistant Examiner(s)Yun, Jurie
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Application NumberUS10/015,891Publication NumberTime in Patent Office722 DaysField of Search378/65, 378/901US Class Current378/65CPC Class CodesA61N 5/103 Treatment planning systemsY10S 378/901 Computer tomography program...
