Rapid Curricular Innovations During COVID-19 Clinical Suspension: Maintaining Student Engagement with Simulation Experiences.
Heather M BradfordCindy L FarleyMelicia EscobarElla T HeitzlerTanya TringaliKelly C WalkerPublished in: Journal of midwifery & women's health (2021)
Health care education programs were faced with the need to quickly adapt to a new reality during the coronavirus disease 2019 pandemic. Students were temporarily suspended from campus and clinical sites, requiring prompt changes in structure to their didactic and clinical learning. This article describes the rapid adjustments that one midwifery and women's health nurse practitioner education program created using both synchronous and asynchronous simulation experiences to promote student learning and ongoing engagement. Flexibility and reflexivity were needed by faculty and students alike in the face of the multiple changes wrought by the pandemic. Curricular changes were made simultaneously in many courses. Objective structured clinical examinations simulate telehealth experiences that assess knowledge, clinical reasoning, and professional behaviors via a scripted scenario and an actor patient. On-call simulations mimic telephone triage and provide students the opportunity to build listening, assessment, and management skills for prenatal and intrapartum scenarios. Students are provided equipment and virtual instruction in an intrauterine device insertion session, which promotes skill acquisition and self-confidence. Trigger films are used to visualize real-life or scripted clinical encounters, leading to discussion and decision-making, particularly in the affective domain. Bilateral learning tools, similar to case studies, provide students an opportunity to demonstrate their knowledge and critical thinking with a mechanism for faculty feedback. Web-based virtual clinical encounter learning tools using patient avatars prompt additional student learning. Suturing skills introduced in live remote group sessions are augmented with video-guided individual practice. This article describes each of these adapted and innovative simulation methods and shares lessons learned during their development and implementation.