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A Novel Sampling Algorithm to Reduce Intensity-Modulated Radiation Therapy (IMRT) Optimization Time

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P Tiwari

P Tiwari1*, Y Xie2 , Y Chen3 , J Deasy4 , (1) ,(2), (3) Washington University in Saint Louis, Saint Louis, Missouri, (4) Memorial Sloan Kettering Cancer Center, New York, NY

Presentations

SU-E-T-21 Sunday 3:00PM - 6:00PM Room: Exhibit Hall

Purpose:
The IMRT optimization problem requires substantial computer time to find optimal dose distributions because of the large number of variables and constraints. Voxel sampling reduces the number of constraints and accelerates the optimization process, but usually deteriorates the quality of the dose distributions to the organs. We propose a novel sampling algorithm that accelerates the IMRT optimization process without significantly deteriorating the quality of the dose distribution.

Methods:
We included all boundary voxels, as well as a sampled fraction of interior voxels of organs in the optimization.

We selected a fraction of interior voxels using a clustering algorithm, that creates clusters of voxels that have similar influence matrix signatures. A few voxels are selected from each cluster based on the pre-set sampling rate.

Results:
We ran sampling and no-sampling IMRT plans for de-identified head and neck treatment plans. Testing with the different sampling rates, we found that including 10% of inner voxels produced the good dose distributions. For this optimal sampling rate, the algorithm accelerated IMRT optimization by a factor of 2-3 times with a negligible loss of accuracy that was, on average, 0.3% for common dosimetric planning criteria.

Conclusion:
We demonstrated that a sampling could be developed that reduces optimization time by more than a factor of 2, without significantly degrading the dose quality.


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