BACKGROUND AND PURPOSE: The aim of this work was to compare the accuracy of different HU adjustments for CBCT-based dose calculation. METHODS AND MATERIALS: Dose calculation was performed on CBCT images of 30 patients. In the first two approaches phantom-based (Pha-CC) and population-based (Pop-CC) conversion curves were used. The third method (WAB) represents override of the structures with standard densities for water, air and bone. In ROI mapping approach all structures were overridden with average HUs from planning CT. All techniques were benchmarked to the Pop-CC and CT-based plans by DVH comparison and γ-index analysis. RESULTS: For prostate plans, WAB and ROI mapping compared to Pop-CC showed differences in PTV D(median) below 2%. The WAB and Pha-CC methods underestimated the bladder dose in IMRT plans. In lung cases PTV coverage was underestimated by Pha-CC method by 2.3% and slightly overestimated by the WAB and ROI techniques. The use of the Pha-CC method for head-neck IMRT plans resulted in difference in PTV coverage up to 5%. Dose calculation with WAB and ROI techniques showed better agreement with pCT than conversion curve-based approaches. CONCLUSIONS: Density override techniques provide an accurate alternative to the conversion curve-based methods for dose calculation on CBCT images.
BACKGROUND AND PURPOSE: The aim of this work was to compare the accuracy of different HU adjustments for CBCT-based dose calculation. METHODS AND MATERIALS: Dose calculation was performed on CBCT images of 30 patients. In the first two approaches phantom-based (Pha-CC) and population-based (Pop-CC) conversion curves were used. The third method (WAB) represents override of the structures with standard densities for water, air and bone. In ROI mapping approach all structures were overridden with average HUs from planning CT. All techniques were benchmarked to the Pop-CC and CT-based plans by DVH comparison and γ-index analysis. RESULTS: For prostate plans, WAB and ROI mapping compared to Pop-CC showed differences in PTV D(median) below 2%. The WAB and Pha-CC methods underestimated the bladder dose in IMRT plans. In lung cases PTV coverage was underestimated by Pha-CC method by 2.3% and slightly overestimated by the WAB and ROI techniques. The use of the Pha-CC method for head-neck IMRT plans resulted in difference in PTV coverage up to 5%. Dose calculation with WAB and ROI techniques showed better agreement with pCT than conversion curve-based approaches. CONCLUSIONS: Density override techniques provide an accurate alternative to the conversion curve-based methods for dose calculation on CBCT images.
Authors: Valentina Giacometti; Raymond B King; Christina E Agnew; Denise M Irvine; Suneil Jain; Alan R Hounsell; Conor K McGarry Journal: Br J Radiol Date: 2019-02-26 Impact factor: 3.039
Authors: Neil C Estabrook; Jonathan B Corn; Marvene M Ewing; Higinia R Cardenes; Indra J Das Journal: Br J Radiol Date: 2017-12-22 Impact factor: 3.039
Authors: Seyoun Park; Todd McNutt; William Plishker; Harry Quon; John Wong; Raj Shekhar; Junghoon Lee Journal: Med Phys Date: 2016-10 Impact factor: 4.071