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Elimination of importance factors for clinically accurate selection of beam orientations, beam weights and wedge angles in conformal radiation therapy

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Bedford, J. L., Webb, S. (2003) Elimination of importance factors for clinically accurate selection of beam orientations, beam weights and wedge angles in conformal radiation therapy. MEDICAL PHYSICS, 30 (7). pp. 1788-1804. ISSN 0094-2405

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Abstract

Elimination of importance factors for clinically accurate selection of beam orientations, beam weights and wedge angles in conformal radiation therapy. A method of simultaneously optimizing beam orientations, beam weights, and wedge angles for conformal radiotherapy is presented. This method removes the need for importance factors by optimizing one objective only, subject to a set of rigid constraints. This facilitates the production of inverse solutions which, without trial-and-error modification of importance factors, precisely satisfy the specified constraints. The algorithm minimizes an objective function which is based upon the single objective to be optimized, but which is forced to an artificially high value when the constraints are not met, so that only satisfactory solutions are allowed. Due to the complex nature of the objective function space, including multiple local minima separated by large regions of plateau, a random search technique equivalent to fast simulated annealing is used for producing inverse plans. To illustrate the novel features of the new algorithm, a simulation is first presented, for the case of a cylindrical phantom. The morphology of the objective function space is shown to be significantly different for the new algorithm, compared to that for a conventional quadratic objective function. Clinical cases for prostate and craniopharyngioma are then presented. For the prostate case, the objective is to reduce irradiated rectal volume. Three-field, four-field, and six-field optimizations, with or without orientation optimization, are shown to provide solutions which are consistent with previously reported plans and class solutions. For the craniopharyngioma case, which involves the use of a high-precision stereotactic conformal technique, the objective is to reduce the irradiated volume of normal brain. Practically feasible beam angles are produced which, compared to a standard plan, provide a small but worthwhile sparing of normal brain. The algorithm is thereby shown to be robust and suitable for clinical application. (C) 2003 American Association of Physicists in Medicine.

Item Type: Article
Authors (ICR Faculty only): Webb, Steve
All Authors: Bedford, J. L., Webb, S.
Uncontrolled Keywords: conformal radiation therapy; inverse planning; optimization; importance factors; beam orientations; INTENSITY-MODULATED RADIOTHERAPY; MULTIPLE LOCAL MINIMA; PROSTATE RADIOTHERAPY; CONVEX-SETS; MULTILEAF COLLIMATOR; VOLUME CONSTRAINTS; INVERSE PROBLEM; TREATMENT PLAN; BOOST PHASE; OPTIMIZATION
Research teams: ICR divisions > Radiotherapy and Imaging > Radiotherapy Physics Modelling
Depositing User: EPrints Services
Date Deposited: 10 Aug 2007 20:42
Last Modified: 17 Dec 2014 11:32
URI: http://publications.icr.ac.uk/id/eprint/1317

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