Simulation in healthcare : journal of the Society for Simulation in Healthcare
-
High-fidelity patient simulation is increasingly recognized as an effective means of team training, acquisition and maintenance of technical and professional skills, and reliable performance assessment; however, finding a cost effective solution to providing such instruction can be difficult. This report describes the rationale, design, and appropriateness of a portable simulation model and example of its successful use at national meetings. ⋯ The Portable Simulation Training and Assessment Program (Pediatric Anesthesia in-Situ Simulation) presents innovative educational and financial opportunities to assist in both training and assessment of critical emergency response skills at smaller institutions and allows specialized instruction in an in situ setting.
-
Comparative Study
Comparison of postsimulation debriefing versus in-simulation debriefing in medical simulation.
A key portion of medical simulation is self-reflection and instruction during a debriefing session; however, there have been surprisingly few direct comparisons of various approaches. The objective of this study was to compare two styles of managing a simulation session: postsimulation debriefing versus in-simulation debriefing. ⋯ Students felt that a simulation experience followed by a debriefing session helped them learn more effectively, better understand the correct and incorrect actions, and was overall more effective compared with debriefing that occurred in-simulation. Students did not feel that interruptions during a simulation significantly altered the realism of the simulation.
-
This article presents a simulation architecture for a patient tracking system simulator to study caregiver performance in emergency departments (EDs). The architecture integrates discrete event simulation modeling with clinical patient information. Evaluation components for electronic patient tracking system displays are also described. ⋯ Modular design of the patient-tracking system display simulation helps adaptation for different studies to support various interface features and interaction types. The methodology described in this work exploits the benefits of discrete event simulation to iteratively design and test technologies such as electronic patient tracking systems and allows assessment of human performance measures.
-
Interventions to reduce preventable complications such as catheter-related bloodstream infections (CRBSI) can also decrease hospital costs. However, little is known about the cost-effectiveness of simulation-based education. The aim of this study was to estimate hospital cost savings related to a reduction in CRBSI after simulation training for residents. ⋯ A simulation-based educational intervention in CVC insertion was highly cost-effective. These results suggest that investment in simulation training can produce significant medical care cost savings.
-
Multifaceted approaches using simulation and human factors methods may optimize in-hospital sudden cardiac arrest (SCA) response. The Arrhythmia Simulation/Cardiac Event Nursing Training-Automated External Defibrillator phase (ASCENT-AED) study used in situ medical simulation to compare traditional and AED-supplemented SCA first-responder models. ⋯ In situ simulation can provide useful information, both anticipated and unexpected, to guide decisions about proposed defibrillation technologies and SCA response models for in-hospital resuscitation system design and education before implementation.