ESTRO 2023 - Abstract Book

S320

Sunday 14 May 2023

ESTRO 2023

Conclusion Interstitial brachytherapy for early head and neck cancer is a viable option and should be utilized wherever indicated. Mold brachytherapy provides an excellent salvage radiation therapy alternative to surgery and helps preserve the organ function with similar survival outcomes and good toxicity outcomes.

Proffered Papers: Translational outputs from clinical trials

OC-0419 Are we so different? An international risk comparison of photon vs. proton clinical trial QA P. Taylor 1 , C. Clark 2 , J. Lehmann 3 , M. Nakamura 4 , H. Palmans 5 , L. Hoffman 6 , S. Kelly 7 , E. Miles 8 , D. Moller 6 , C. Corning 7 , S. Kry 1 , K. Akbarov 9 , M. Stock 5 , M. Aznar 10 , R. Effeney 11 , E. Clementel 7 , S. Patel 12 , P. Kazanstev 9 , M. Carrara 9 , B. Healy 13 1 UT MD Anderson Cancer Center, Imaging and Radiation Oncology Core, Houston, USA; 2 NCRI, Radiotherapy Trials QA Group, London, United Kingdom; 3 Trans-Tasman Radiation Oncology Group, Radiation Oncology, Waratah, Australia; 4 Japan Clinical Oncology Group, Radiation Oncology, Kyoto, Japan; 5 MedAustron, Radiation Oncology, Wiener Neustadt, Austria; 6 Aarhus University Hospital, Radiation Oncology, Aarhus, Denmark; 7 European Organisation for Research and Treatment of Cancer, Radiation Oncology, Brussels, Belgium; 8 NCRI, Radiotherapy Trials QA Group , London, United Kingdom; 9 International Atomic Energy Agency, Radiation Oncology, Vienna, Austria; 10 University of Manchester, Radiation Oncology, Manchester, United Kingdom; 11 Queensland Health, Radiation Oncology, Queensland, Australia; 12 University of Alberta, Radiation Oncology, Edmonton, Canada; 13 Australian Radiation Protection and Nuclear Safety Agency, Australian Clinical Dosimetry Service , Melbourne, Australia Purpose or Objective The extent and components of quality assurance (QA) in clinical trials may impact the outcome of the trials. The Global QA of Radiation Therapy Clinical Trials Harmonization Group (GHG), an international consortium of clinical trial QA groups, compared the clinical trial QA for photon versus proton therapy to ascertain where differences might lie and where priorities should be. Materials and Methods A list of 25 clinical trial QA tests including phantom tests, dosimetry and image guidance was compiled (Table 1) . Seven participating GHG QA groups provided details on how they performed each test for photon and for proton therapy. Each group then individually performed a QA Failure Effects Analysis (FEA), modeled after Failure Modes and Effects Analysis, for the 25 tests. Each test was given a score for Occurrence, Severity (S), and Detectability. A Risk Priority Number (RPN) was defined as the product of these scores. The scores were combined and analyzed for trends. High-risk failures were defined as those with a median RPN score in the top 20th percentile or those with a median S score ≥ 8, as recommended by AAPM Task Group Report 100 and noted in Table 1. A sub-analysis was performed to include an up-scaling of the S score, depending on the number of patients potentially affected by the error. A score of +0 was added to S if the failure would only affect one or a few patients; a score of +2 was added if the failure affected all patients of a certain disease site; a score of +4 was added if the failure affected all patients treated on the machine or at the facility. A scaled RPN was calculated based on the modified S score. Results The median RPN for the unscaled and scaled scores are shown in Figure 1, with top scorers noted in Table 1. Median and mean RPN showed the same highest RPNs, with deviations between groups largely driven by differences in system detectability. Proton and photon clinical trial QA had four out of five same top median RPNs for the unscaled scores, but proton RPNs were higher than photon RPNs for 18 of the 25 tests. The higher proton scores were driven by higher severity for the various failures. While only one photon test had a median S score of 8, five of the proton tests had median S scores of 8. The severity scaling did not substantially alter the order of RPNs, but it did increase the RPNs by an average of 38% for photons and 51% for protons.