Simulation in healthcare : journal of the Society for Simulation in Healthcare
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: The objective of this study was to describe the availability and current use of high-fidelity mannequin-based simulation (HFMB) in emergency medicine (EM) training programs. ⋯ : HFMB simulation technology has not been completely adopted by EM training programs even when it is available. Most EM training programs are using HFMB simulation less often than every month and curriculum development in EM training is still in the early phases.
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To critically analyze the experience of clinical clerkship students exposed to simulator-based teaching, in order to better understand student perspectives on its utility. ⋯ Full-body simulation promises to address a wide range of pedagogical objectives using a unified educational platform. Students value experiential "practice without risk" and want more exposure to simulation. In this study, students thought that that an integrated simulation exercise could help solidify knowledge across domains, foster critical thought and action, enhance technical-procedural skills, and promote effective teamwork and communication.
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Simulation for training and assessing clinicians is increasing but often overlooks the patient's perspective. In this paper, actors are trained to portray patients undergoing operations under local anesthetic within a high-fidelity simulated operating theater (SOT). There are few published accounts of approaches to case development and simulated patient (SP) training. We assess the feasibility of SPs playing complex surgical roles and evaluate a three-phased framework for case development and SP training. ⋯ Actors can be trained to portray patients undergoing complex procedures. Our framework for case development and SP training was effective in creating realistic roles. Future studies could evaluate this framework for additional procedures.
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Anesthesiologists have long recognized that there is a sympathetic response to stimulation of the larynx, even in sedated patients. This response creates a rapid increase in blood pressure and heart rate in these patients. ⋯ Using several experienced anesthesiologists as subject matter experts, we have developed a scenario that mimics this response for several types of patients. This scenario runs on the Medical Education Technologies, Inc. (METI) patient simulators; however, the methodology used to develop this scenario applies to other patient simulator systems.
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Extracorporeal membrane oxygenation (ECMO) is a form of long-term cardiopulmonary bypass used to treat infants, children, and adults with respiratory and/or cardiac failure despite maximal medical therapy. Mechanical emergencies on extracorporeal membrane oxygenation (ECMO) have an associated mortality of 25%. Thus, acquiring and maintaining the technical, behavioral, and critical thinking skills necessary to manage ECMO emergencies is essential to patient survival. Traditional training in ECMO management is primarily didactic in nature and usually complemented with varying degrees of hands-on training using a water-filled ECMO circuit. These traditional training methods do not provide an opportunity for trainees to recognize and interpret real-time clinical cues generated by human patients and their monitoring equipment. Adult learners are most likely to acquire such skills in an active learning environment. To provide authentic, intensive, interactive ECMO training without risk to real patients, we used methodologies pioneered by the aerospace industry and our experience developing a simulation-based training program in neonatal resuscitation to develop a similar simulation-based training program in ECMO crisis management, ECMO Sim. ⋯ Traditional ECMO training programs have yet to incorporate simulation-based methodology. Using current technology it is possible to realistically simulate in real-time the clinical cues (visual, auditory, and tactile) generated by a patient on ECMO. ECMO Sim as a training program provides more opportunities for active learning than traditional training programs in ECMO management and is overwhelmingly preferred by the experienced healthcare professionals serving as subjects in this study. Subjects also indicated that they felt that the acquisition of key cognitive, technical, and behavioral skills and transfer of those skills to the real medical domain was better achieved during simulation-based training.