ESTRO 2023 - Abstract Book

S553

Sunday 14 May 2023

ESTRO 2023

Materials and Methods Scans of fifteen gynecological patients were included in this study. Iodine-based contrast agent was administered before acquiring a contrast-enhanced DECT scan (Revolution CT, GE Healthcare). Contrast consisted of intra-venous contrast, bowel contrast and vaginal contrast. Two reconstructions were made: one with 120 kVp-like reconstruction (cCT), generated from the two kilovolt peaks acquisition simulating a 120 kVp scan from conventional single-energy CT, and a VUE reconstruction. A clinical treatment plan (VMAT, 25 x 180cGy fractions resulting in 45Gy) was generated on the cCT with a density override (contrast agent to water) applied on the CES. Additionally, the dose distribution was calculated on the VUE reconstruction. Comparison between dose distributions cCT and VUE, was done by evaluating the mean gamma values and pass rates (gamma analysis, 1%/1mm local dose with a dose cut-off of 30% of the global maximum dose). Furthermore, we reported differences in dose parameters of the PTV (D98%, Dmean and D2%) and near maximum doses (D2%) in the bladder, bowel bag, rectum and sigmoid. Results Suppression of the contrast agent by the VUE algorithm led to an average HU reduction of 186 (SD 75) HU in the CES compared to the cCT (average of 212 HU on cCT vs. 26 HU on VUE images). The dose distributions calculated on the cCT and VUE images were close to identical. In fourteen subjects the gamma pass rate was 100%, in one subject the pass-rate was 98%. The γ mean was 0.16 (SD 0.03). The PTV Dmean differed with a mean value of +16 cGy (0.35%) comparing VUE with cCT, see Figure 2A. The D98% and D2% differed with a mean value of +12 cGy (0.30%) and +17 cGy (0.36%), respectively. Figure 2B shows the differences in OARs near maximum doses, which were all well below 1%.