A view from the top: A qualitative exploration of top-level health care leaders' perceptions on the implementation of simulation-based education in postgraduate medical education.

INTRODUCTION: Although there is substantial evidence supporting the benefits of simulation-based education (SBE), its widespread and effective implementation remains challenging. The aim of this study was to explore the perceptions of top-level health care leaders regarding SBE and the barriers and facilitators that influence its wide implementation as part of the postgraduate surgical curricula in Denmark. METHODS: We conducted semi-structured interviews with top-level health care leaders who were chosen based on their roles in ensuring high-quality patient care delivery and developing strategies to achieve the goals of the entire health care system. The interview transcripts were translated into English, and a thematic approach was used to code and inductively analyse the data. We used the Consolidated Framework for Implementation Research to identify and understand the determinants to a successful implementation of SBE. RESULTS: We interviewed 13 participants from different political and administrative levels. We found that the participants had limited knowledge about SBE, which highlighted a disconnection between these leaders and the educational environment. This was further compounded by a lack of effective communication and inadequate information dissemination between simulation centres and higher-level organisations. While participants recognised the benefits of SBE for doctors in training, they expressed concerns about the implementation given the already strained health care system and limited resources. The need for evidence, particularly in the context of patient safety, was emphasised to facilitate SBE implementation. Although participants supported the implementation of SBE, it was unclear who should initiate action. DISCUSSION: This study highlighted the perspectives of top-level health care leaders regarding SBE and identified the determinant factors for a successful implementation. Effective communication channels are crucial to enhance collaborations and reduce the disconnection between the different health care organisational levels. Strategic implementation processes, including the roles and responsibilities, should be defined and established. These will inform decisions regarding the implementation strategies to effectively integrate SBE into the residency training curricula.

Exploring training needs of newly graduated medical doctors to inform the undergraduate simulation-based curriculum: a national Delphi consensus study.

PURPOSE: Mastering technical procedures is a key component in succeeding as a newly graduated medical doctor and is of critical importance to ensure patient safety. The efficacy of simulation-based education has been demonstrated but medical schools have different requirements for undergraduate curricula. We aimed to identify and prioritize the technical procedures needed by newly graduated medical doctors. METHODS: We conducted a national needs assessment survey using the Delphi technique to gather consensus from key opinion leaders in the field. In the first round, a brainstorm was conducted to identify all potential technical procedures. In the second round, respondents rated the need for simulation-based training of each procedure using the Copenhagen Academy for Medical Education and Simulation Needs Assessment Formula (CAMES-NAF). The third round was a final elimination and prioritization of the procedures. RESULTS: In total, 107 experts from 21 specialties answered the first round: 123 unique technical procedures were suggested. Response rates were 58% and 64% in the second and the third round, respectively. In the third round, 104 procedures were eliminated based on the consensus criterion, and the remaining 19 procedures were included and prioritized. The top five procedures were: (i) insert peripheral intravenous catheter, (ii) put on personal protection equipment, (iii) perform basic airway maneuvers, (iv) perform basic life support, and (v) perform radial artery puncture. CONCLUSION: Based on the Delphi process a final list of 19 technical procedures reached expert consensus to be included in the undergraduate curriculum for simulation-based education.