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A dosimetric leaf‐setting strategy for shaping radiation fields using a multileaf collimator
Author(s) -
Ma Lijun,
Yu Cedric,
Sarfaraz Merhdad
Publication year - 2000
Publication title -
medical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.473
H-Index - 180
eISSN - 2473-4209
pISSN - 0094-2405
DOI - 10.1118/1.598961
Subject(s) - multileaf collimator , dosimetry , radiation treatment planning , nuclear medicine , process (computing) , computer science , collimator , medical physics , mathematics , radiation therapy , medicine , optics , physics , radiology , operating system
A dosimetric leaf‐setting strategy of using multileaf collimators (MLC) for shaping radiation fields has been developed. Existing MLC leaf‐setting strategies are all based upon geometric criteria. This new approach, however, matches a prescribed field contour with a MLC using clinically consistent dosimetric criteria. The leaf positions are determined using an iterative optimization algorithm. An empirical dose model was developed to compare the dosimetric‐based leaf‐setting strategy with the geometric‐based leaf‐setting strategies. Differences up to half a centimeter in the leaf positions and isodose lines were found between setting the MLC geometrically and setting the MLC dosimetrically. The dosimetric leaf‐setting strategy provides the ability to achieve better dose conformation for a clinically desired isodose line. Since the desired isodose line that covers a treatment volume is typically higher than 50% of the maximum dose, the scalloping effects due to the finite leaf width at the leaf edge or 50% isodose lines are much reduced. Another benefit of the dosimetric leaf‐setting is that it separates the leaf‐setting process from the treatment planning process, and this frees the treatment planning vendors from developing detailed dose models for various existing types and future upgrades of MLC systems.