Technical note: TERMA scaling as an effective heterogeneity correction model for convolution-based external-beam photon dose calculations

In highly heterogeneous medium, such as one with lung tissue or air cavities, the dose in the low-density region or after it, as calculated by the conventional methods based on convolution with an energy-spreading kernel, is usually overestimated in comparison with measurements or more accurate pred...

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Bibliographic Details
Published inMedical physics (Lancaster) Vol. 50; no. 5; p. 3191
Main Authors Laakkonen, Linda, Fan, Zheyong, Harju, Ari
Format Journal Article
LanguageEnglish
Published United States 01.05.2023
Subjects
Algorithms
Lung
Monte Carlo Method
Photons - therapeutic use
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted - methods
FTDC
heterogeneity correction
TERMA
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Summary:In highly heterogeneous medium, such as one with lung tissue or air cavities, the dose in the low-density region or after it, as calculated by the conventional methods based on convolution with an energy-spreading kernel, is usually overestimated in comparison with measurements or more accurate predictions. To correct the overestimation, we propose a method of scaling the total energy released per mass (TERMA). The scaling depends on both the density distribution and the effective beam size in the lateral direction. The corrected convolution method achieved a significantly improved accuracy in both the lung-like tissue and the water-like region after air, compared to the uncorrected method. The TERMA correction only adds about 10% to the overall computational cost. Due to the improvement in accuracy and the preservation of computational efficiency, the proposed dose calculation method will be valuable for inverse treatment planning.
ISSN:2473-4209
DOI:10.1002/mp.16268