ESTRO 2023 - Abstract Book
S292
Sunday 14 May 2023
ESTRO 2023
DIBH poses an additional variable to consider when defining the TB PTV margin; IBH set-up error, as the treatment position is verified, corrected and delivered in multiple breath-holds. The resulting mean, random and systematic error must be quantified to inform the TB PTV margin. This imaging audit confirms that IBH variation is consistent, values are low and within our 5mm TB PTV margin when delivering TBB in DIBH for all tumour quadrants. This is particularly beneficial for this cohort of left-sided breast patients as heart dose is minimized. As a result, these treatments are proven to be safely delivered, and post-treatment imaging has been removed. There may be future scope based on this data to reduce the TB PTV or consider a non-isotropic margin but more patients would need to be accrued to implement a change in margins. MO-0391 Virtual Unenhanced Dual Energy CT improves position verification compared to contrast CT L. Bulthuis 1 , M. Afifah 2 , K. Goudschaal 1 , D. den Boer 1 , T. Rosario 1 , J. Verbeek 1 , A. Bel 1 , Z. van Kesteren 1 1 Amsterdam UMC, Radiotherapy, Amsterdam, The Netherlands; 2 Amsterdamumc, Radiotherapy, Amsterdam, The Netherlands Purpose or Objective Iodine contrast is commonly used to aid delineation in radiotherapy. However, this contrast is not present during treatment and needs to be accounted for during treatment planning and position verification. Dual-Energy CT (DECT) is an emerging CT technique with the capability of generating virtual unenhanced (VUE) reconstructions from contrast-enhanced acquisitions. A concern is that VUE images show reduced CT intensity in high density regions outside the contrast-enhanced structures, e.g. bones, see Figure 1(A/B). This potentially influences the CBCT-based position verification at conventional linacs. The aim of this study is to assess the position verification accuracy by comparing CBCT registrations to VUE CT reconstructions with CBCT registrations to the contrast CT.
Materials and Methods Ten gynecological patients, treated for 25 fractions, were included in this study. Iodine-based contrast agent was administered before acquiring a DECT scan (Revolution CT, GE Healthcare). Contrast consisted of intra-venous contrast, bowel contrast and vaginal contrast. Two reconstructions were made: one contrast CT (cCT, our clinical standard) and a VUE reconstruction. A strict position verification protocol was used, e.g. an automatic registration with fixed region of interest (ROI) and registration algorithm (chamfer match algorithm, XVI, R5.0.4, Elekta). For this study, 250 CBCTs were retrospectively registered on the contrast CT and compared to the same CBCT to VUE image registrations (VUE). We recorded translation couch corrections in LR, CC and AP-direction resulting from the registration, thus after correcting for rotations in the center of mass of the target structure. We analysed the frequency of registrations with poor quality, based on visual assessment (Figure 1C). These registrations were excluded in the analysis of differences between cCT and VUE registration results. A Student t-test was used to determine significance ( α = 0.05). Results Using the cCT with the strict registration protocol, 36/250 CBCT registrations were of poor quality, due to the presence of contrast enhanced structures in the ROI. This occurred in 4 patients (21, 7, 7 and 1 occurrences). This did not occur in the VUE registrations (e.g., Figure 1D). Comparing couch shifts from the remaining 214 successful automatic registrations, the VUE and cCT yielded similar results (upper panes Figure 2). The differences of cCT versus VUE registrations for the three cardinal directions were significant (p<0.001) but small, a mean difference of 0.2, 0.1 and 0.2 mm was observed for the LR, CC and AP-direction respectively.
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