Developing a Robotic General Surgery Training Curriculum: Identifying Key Elements Through a Delphi Process.

2021 
Objective A national robotic surgery curriculum is still developing for general surgery residents as robotic surgery becomes increasingly accessible. One general surgery residency program utilized a Delphi process to optimize a robotic surgery curriculum and to determine key factors that might affect robotic proficiency and intraoperative independence. Design Delphi methodology was used to gain consensus amongst robotic surgery faculty and trainees. Consensus was defined as agreement of 66.7% or above in factors that would allow a resident to independently operate in a robotic case. A panel of diverse representatives proposed factors that might affect resident robotic learning and operative experience. In a subsequent round, questions were sent through an anonymous online survey for respondents to identify factors that affect resident robotic independence. Respondents were also given the ability to write in pertinent factors. Setting This study was conducted from July 2020 to September 2020 via anonymous web-based questionnaires for education researchers, faculty members, and residents of a university-affiliated independent general surgery residency program. Participants The initial panel consisted of a robotic surgeon, a 2020 graduate, a 2019 graduate and/or robotic fellow, a research resident, and a current resident. The subsequent survey was completed by 8 faculty members, 6 recent graduates, and 15 current residents within the general surgery residency program. Results Proposed items fell into 3 categories: institutional resources, individual qualities, and curricular elements. Consensus within groups was achieved in the following items: dual robotic console models, robotic-focused faculty, resident interest, PGY level, and resident time spent on a simulator. Conclusions This Delphi exercise has informed this general surgery residency program in the development of a robotic surgery curriculum, through contribution from multiple stakeholders. While curricular elements for baseline robotic knowledge are necessary, institutional resources, deliberate practice, resident entrustment and faculty teaching proficiency warrant further study.
    • Correction
    • Source
    • Cite
    • Save
    • Machine Reading By IdeaReader
    18
    References
    0
    Citations
    NaN
    KQI
    []