Introduction: Unified critical care training within residency education is a necessity. We created a simulation-based curriculum designed to educate residents on core topics and procedural skills, which crossed all adult disciplines caring for critically ill patients.
Methods: Residents from seven adult disciplines participated in this annual program during intern year. Learners were grouped into mixed discipline cohorts. Each cohort attended three distinct 4-hour simulation-based sessions, each consisting of four scenarios followed by postevent debriefing. The curriculum included 12 total clinical scenarios. Scenarios covered a broad array of complex critical care topics facing all adult specialties and reinforced important system-specific initiatives. Assessments evaluated clinical performance metrics, self-reported confidence in curricular topics, procedural and communication skills, resident satisfaction, and interdisciplinary attitudes.
Results: Quantitative and qualitative data analyzed in three published works over the past 9 years of curricular programming has demonstrated highly satisfied learners along with improved: clinical performance; self-reported confidence in clinical topics, procedural, and communication skills; and interdisciplinary collegiality.
Discussion: Purposeful focus on curricular development that integrates basic, clinical, and procedural content, while promoting the development of interdisciplinary relationships and the practice of critical thinking skills, is vital for successful education and patient care. This curriculum was well received by interns, covered difficult to obtain GME milestones, and provided an opportunity for interdisciplinary education. In an era of limited time for devoted bedside teaching and variable training exposures to certain disease processes, the development and implementation of this curriculum has filled a void within our system for unified resident education.
Keywords: Clinical/Procedural Skills Training; Critical Care; Curriculum; Interdisciplinary; Physician; Resident Education; Simulation; Simulation Education; Standardized Patient.
© 2020 Bullard et al.