Radiation therapy system using interior-point methods and convex models for intensity modulated fluence map optimization

US 20050207531A1
Filed: 01/20/2005
Published: 09/22/2005
Est. Priority Date: 01/20/2004
Status: Abandoned Application

First Claim

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1. A method of determining a treatment plan for intensity modulated radiation treatment (IMRT), comprising the steps of:

dividing a three-dimensional volume of a patient into a grid of dose voxels, wherein at least a portion of said dose voxels are designated to belong to at least one target or to at least one critical structure;

modeling an ionizing radiation dose as delivered by a plurality of beamlets each having a beamlet intensity;

providing a non-linear convex voxel-based penalty function model for optimizing a fluence map, said fluence map defining said beamlet intensities for each of said plurality of beamlets, and solving said model based on defined clinical criteria for said target and said critical structure using an interior point algorithm with dense column handling to obtain a globally optimal fluence map.

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Abstract

A method of determining a treatment plan for intensity modulated radiation treatment (IMRT) divides a three-dimensional volume of a patient into a grid of dose voxels. At least a portion of the dose voxels are designated to belong to at least one target or to at least one critical structure. An ionizing radiation dose as delivered by a plurality of beamlets each having a beamlet intensity is modeled. A non-linear convex voxel-based penalty function model is provided for optimizing a fluence map. The fluence map defines the beamlet intensities for each of the plurality of beamlets. The model is then solved based on defined clinical criteria for the target and the critical structure using an interior point algorithm with dense column handling to obtain a globally optimal fluence map.

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14 Claims

1. A method of determining a treatment plan for intensity modulated radiation treatment (IMRT), comprising the steps of:
- dividing a three-dimensional volume of a patient into a grid of dose voxels, wherein at least a portion of said dose voxels are designated to belong to at least one target or to at least one critical structure;
  
  modeling an ionizing radiation dose as delivered by a plurality of beamlets each having a beamlet intensity;
  
  providing a non-linear convex voxel-based penalty function model for optimizing a fluence map, said fluence map defining said beamlet intensities for each of said plurality of beamlets, and solving said model based on defined clinical criteria for said target and said critical structure using an interior point algorithm with dense column handling to obtain a globally optimal fluence map.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method of claim 1, wherein said penalty functions are selected from the group consisting of piece-wise linear functions, convex non-linear functions, and piece-wise non-linear convex functions.
  - 3. The method of claim 1, wherein said dense column handling comprises Sherman Morrison Woodbury decomposition or Shur decomposition.
  - 4. The method of claim 1, further comprising the step of constraining said model with a dose-volume constraint to produce a constrained model.
  - 5. The method of claim 4, wherein said dose-volume constraint bounds a mean value of a tail of a differential dose-volume histogram (DVH) for a structure within said patient comprising a portion of said grid of dose voxels.
  - 6. The method of claim 4, wherein said dose volume constraint comprises a conditional value at risk (CVaR) constraint.
  - 7. The method of claim 6, wherein said CVaR constraint includes an upper and lower bound constraints on said dose received by each of said voxels comprising a given target region within said patient.
  - 8. The method of claim 6, wherein said CVaR constraint includes upper and lower bound constraints on a mean dose received by a structure within said patient comprising a portion of said dose voxels.

9. A system for delivering intensity modulated radiation treatment (IMRT), comprising:
- an inverse treatment planning system comprising;
  
  computing structure for dividing a three-dimensional volume of a patient into a grid of dose voxels, wherein at least a portion of said dose voxels are designated to belong to at least one target or to at least one critical structure and modeling an ionizing radiation dose as delivered by a plurality of beamlets each having a beamlet intensity and for implementing a non-linear convex voxel-based penalty function model for optimizing a fluence map, said fluence map defining said beamlet intensities for each of said plurality of beamlets, and for solving said model based on defined clinical criteria for said target and said critical structure using an interior point algorithm with dense column handling to obtain a globally optimal fluence map;
  
  a radiation source for generating at least one radiation beam, said radiation source including structure to generate said plurality of beamlets, and a multi-leaf collimator disposed between said radiation source and said patient, said collimator communicably connected to said computing structure, said collimator having a plurality of leafs for modifying said plurality of beamlets to deliver said globally optimal fluence map to said patient.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The system of claim 9, wherein said penalty functions are selected from the group consisting of piece-wise linear functions, convex non-linear functions, and piece-wise non-linear convex functions.
  - 11. The system of claim 9, wherein said dense column handling comprises Sherman Morrison Woodbury or Shur decomposition.
  - 12. The system of claim 9, wherein said model is constrained with a dose-volume constraint to produce a constrained model.
  - 13. The system of claim 12, wherein said dose-volume constraint bounds a mean value of a tail of a differential dose-volume histogram (DVH) for a structure within said patient comprising a portion of said grid of dose voxels.
  - 14. The system of claim 12, wherein said dose volume constraint comprises a conditional value at risk (CVaR) constraint.

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Current Assignee
University of Florida Research Foundation, Incorporated (State University System of Florida)
Original Assignee
University of Florida Research Foundation, Incorporated (State University System of Florida)
Inventors
Kumar, Arvind, Ahuja, Ravindra K., Romeijn, H. Edwin, Dempsey, James F., Li, Jonathan G.

Application Number

US11/039,331
Publication Number

US 20050207531A1
Time in Patent Office

Days
Field of Search
US Class Current

378/65
CPC Class Codes

A61N 5/1031 using a specific method of ...

A61N 5/1042 with spatial modulation of ...

Radiation therapy system using interior-point methods and convex models for intensity modulated fluence map optimization

First Claim

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Abstract

66 Citations

14 Claims

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Radiation therapy system using interior-point methods and convex models for intensity modulated fluence map optimization

First Claim

2 Assignments

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Abstract

66 Citations

14 Claims

Specification

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