A Oar1, M L Yap2, D Rodin3, A McNiven3, J Papadakos4, M Giuliani3. 1. Ingham Institute, Liverpool Cancer Therapy Centre, Liverpool, NSW, Australia. Electronic address: andrew.oar@roc.team. 2. Ingham Institute, Liverpool Cancer Therapy Centre, Liverpool, NSW, Australia. 3. Radiation Oncology, Princess Margaret Cancer Centre, Toronto, Ontario, Canada; Department of Radiation Oncology, University of Toronto, Toronto, Ontario, Canada. 4. Cancer Education Program, Princess Margaret Cancer Centre, Toronto, Ontario, Canada.
Abstract
AIMS: To identify core competencies for postgraduate radiation oncology trainees in global health and cancer that may inform revisions across radiation oncology residency specialty training curricula. MATERIALS AND METHODS: A review of the literature was conducted to identify all potential global health competency items. An international two-phase Delphi process was conducted with experts in oncology. In phase 1, all experts scored, on a nine-point Likert scale, the degree to which they agreed an item should be included in the competency profile. Items with a mean score ≥7 were included, those scoring 4-6 were reviewed in phase 2, and items scored ≤3 were excluded. In phase 2, items were discussed and subsequently ranked for inclusion or exclusion in the competency profile. Items with >75% voting for inclusion were included in the final competency profile. RESULTS: In total, 142 potential global health competency items were identified. Sixty-one items were removed as redundant or irrelevant, leaving 81 items for the Delphi process. Eighteen specialists were invited to participate, with 10 (56%) agreeing to participate in phase 1 of the Delphi process. Participants represented 10 centres in seven countries. Of the 81 items ranked in phase 1, 72 items (89%) had a mean score ≥7 and were automatically included in the final competency profile. The remaining nine items received a score of 4-6 and were discussed in phase 2 of the Delphi process, of which three received <75% agreement for inclusion and were excluded. The result was a final list of 78 enabling competency items. CONCLUSIONS: The radiation oncology global health competency profile represents an international consensus on the items that can inform radiation oncology training requirements. Crown
AIMS: To identify core competencies for postgraduate radiation oncology trainees in global health and cancer that may inform revisions across radiation oncology residency specialty training curricula. MATERIALS AND METHODS: A review of the literature was conducted to identify all potential global health competency items. An international two-phase Delphi process was conducted with experts in oncology. In phase 1, all experts scored, on a nine-point Likert scale, the degree to which they agreed an item should be included in the competency profile. Items with a mean score ≥7 were included, those scoring 4-6 were reviewed in phase 2, and items scored ≤3 were excluded. In phase 2, items were discussed and subsequently ranked for inclusion or exclusion in the competency profile. Items with >75% voting for inclusion were included in the final competency profile. RESULTS: In total, 142 potential global health competency items were identified. Sixty-one items were removed as redundant or irrelevant, leaving 81 items for the Delphi process. Eighteen specialists were invited to participate, with 10 (56%) agreeing to participate in phase 1 of the Delphi process. Participants represented 10 centres in seven countries. Of the 81 items ranked in phase 1, 72 items (89%) had a mean score ≥7 and were automatically included in the final competency profile. The remaining nine items received a score of 4-6 and were discussed in phase 2 of the Delphi process, of which three received <75% agreement for inclusion and were excluded. The result was a final list of 78 enabling competency items. CONCLUSIONS: The radiation oncology global health competency profile represents an international consensus on the items that can inform radiation oncology training requirements. Crown
Authors: C Norman Coleman; Jeffrey C Buchsbaum; Pataje G S Prasanna; Jacek Capala; Ceferino Obcemea; Michael G Espey; Mansoor M Ahmed; Julie A Hong; Bhadrasain Vikram Journal: JNCI Cancer Spectr Date: 2021-05-17