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Validation of the Implementation of Different CT Scanners in Proton Treatment Planning


C Llina Fuentes

C Llina Fuentes1*, D Geismer2 , M Christiaens3 , X Vermeren4 , X Ding5 , (1) West German Proton therapy center, Essen, North Rhine Westphalia, (2) West German proton therapy center, Essen, North Rhine Westphalia, (3) West German proton therapy center, Essen, North Rhine Westphalia, (4) West German proton therapy center, Essen, North Rhine Westphalia, (5) Mayo Clinic Arizona, Phoenix, AZ

Presentations

SU-E-E-12 (Sunday, July 12, 2015) 3:00 PM - 6:00 PM Room: Exhibit Hall


Purpose:To quantify the impact of the relationship of CT number and Relative Stopping Power (RSP) among different CT-scanners in the evaluation of dose distribution, for different tumor sites and proton therapy modalities like Pencil Beam and Uniform Scanning.

Methods:The same tissue characterization phantom was used to analyze the difference in the X-rays energy spectra of 2 CT scanners of the same vendor.One CT is for planning and the other for treatment verification.The Hounsfield unit (HU) variations and associated dosimetric uncertainty were investigated in uniform scanning and pencil beam treatment plans of different sites.At the same time comparisons of the CT calibration curve were done using the same acquisition protocols.The phantom was imaged on a 16 multi-row CT scanner, with energies of 120 and 140 kVp,currents of 263 and 245 mA and slice thickness of 2 and 3mm respectively.The dosimetric uncertainty of the plans was evaluated in a homogeneus phantom comparing DVHs, gamma index criteria 3% 3mm, and range between them.

Results:The variation of HU was within the standard deviation of the average for each tissue substitute.The curves fitted with a bilinear interpolation show a maximum deviation in high density materials like cortical bone and solid water, where the HU values deviated more than 0,6% for the 120kVp protocol.For the others curves the deviation was more than 2% for low densities materials.The gamma index uncertainty criteria passed in all the cases.

Conclusion:The HU variations for the different scanners were ≤3%.Lower than the 3,5% uncertainties considered in our treatment planning system.The dosimetric analysis shows that the X-ray spectrum has a small effect on the HU-RSP curve, allowing the use of a single tissue characterization curve in our proton treatment planning system for plans verifications.


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