ESTRO 2023 - Abstract Book

S259

Saturday 13 May

ESTRO 2023

PD-0325 unedited deep-learning based OARs are suitable for rigorous head and neck treatment planning J. Koo 1,2 , J.J. Caudell 1 , K. Latifi 1 , E.G. Moros 1 , V. Feygelman 1 1 H.Lee Moffitt Cancer Center and Research Institute, Department of Radiation Oncology, Tampa, USA; 2 University of South Florida, Department of Physics, Tampa, USA Purpose or Objective Quality of organ at risk (OAR) autosegmentation is often judged by concordance metrics against the human-generated gold standard. However, the ultimate goal is the ability to use unedited autosegmented OARs in treatment planning, while maintaining the plan quality associated with the manually segmented counterparts. We tested this approach with head and neck (HN) OARs generated by a prototype deep-learning (DL) model developed in collaboration with the vendor.1 (1Koo et al. https://doi.org/10.1016/j.radonc.2022.06.024) Materials and Methods Forty previously treated oropharynx cancer patients were selected, with all structures delineated by an experienced physician. For each patient, a set of 13 OARs were generated by the DL model. Each patient was re-planned based on original targets and unedited DL-produced OARs. The new dose distributions were then applied back to the manually delineated structures. The target coverage was evaluated with conformity index (CI), homogeneity index (HI), inhomogeneity index (II), and the PTV_High volume of regret (the volume outside the PTV receiving ≥ Rx dose). For the OARs, Dice similarity coefficient (DSC) of areas under the DVH curves, individual DVH objectives, and composite continuous plan quality metric (PQM) were compared. Results The nearly identical primary target coverage for the original and re-generated plans was achieved, with the volume of regret of 23.0±16.2 cc and 21.7±14.5 cc, and the same CI, HI, and II values of 1.2±0.1, 0.1±0.1, 0.1±0.03, respectively. For the 13 HN OARs, the overall average of the DSC of the areas under the corresponding pairs of DVH curves was 0.97±0.06. The mean DSC values for each individual DVH area under the curve pair were all above 0.9. The number of critical DVH points which met the clinical objectives with the re-planned dose and autosegmented structures but failed with the manual

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