INTRODUCTION: As part of an international response to the Ebola virus disease (EVD) outbreak, the US Department of Defense has deployed thousands of personnel to help train and augment international health care workers. The transmission risk of this deadly virus to health care workers has been extreme, demonstrating the importance of safe practices while caring for these patients. Medical simulation training is well recognized as an integral component for disease outbreak preparedness. Therefore, the US Government created a program of instruction that outlines a formalized EVD training program, using high-fidelity simulation, which projects both an understanding of the disease and its transmission risks. METHODS: Two 5-day training courses were established to provide training to the 65-member Department of Defense Ebola Response Team, which would be activated during a stateside Ebola outbreak. This training consisted of Ebola-specific protocols, personal protective equipment familiarization, and scenario-based certification for physicians, nurses, and public health trainers. Simulation was used to replicate the work environment inside an Ebola treatment unit. RESULTS: Three comprehensive clinical scenarios covering a wide spectrum of EVD presentations were designed around details of published cases to provide the most realistic and relevant EVD training available. The authors conducted 10 iterations of the 3 EVD clinical scenarios totaling more than 1100 hours of simulation training. CONCLUSIONS: Quality practical exercises to include specialized task performance and collective teamwork training relied heavily on dedicated facilities and realistic medical simulation resulting in valuable lessons learned. In future iterations, these characteristics would be imperative to a successful training course.
INTRODUCTION: As part of an international response to the Ebola virus disease (EVD) outbreak, the US Department of Defense has deployed thousands of personnel to help train and augment international health care workers. The transmission risk of this deadly virus to health care workers has been extreme, demonstrating the importance of safe practices while caring for these patients. Medical simulation training is well recognized as an integral component for disease outbreak preparedness. Therefore, the US Government created a program of instruction that outlines a formalized EVD training program, using high-fidelity simulation, which projects both an understanding of the disease and its transmission risks. METHODS: Two 5-day training courses were established to provide training to the 65-member Department of Defense Ebola Response Team, which would be activated during a stateside Ebola outbreak. This training consisted of Ebola-specific protocols, personal protective equipment familiarization, and scenario-based certification for physicians, nurses, and public health trainers. Simulation was used to replicate the work environment inside an Ebola treatment unit. RESULTS: Three comprehensive clinical scenarios covering a wide spectrum of EVD presentations were designed around details of published cases to provide the most realistic and relevant EVD training available. The authors conducted 10 iterations of the 3 EVD clinical scenarios totaling more than 1100 hours of simulation training. CONCLUSIONS: Quality practical exercises to include specialized task performance and collective teamwork training relied heavily on dedicated facilities and realistic medical simulation resulting in valuable lessons learned. In future iterations, these characteristics would be imperative to a successful training course.
Authors: Jos H Verbeek; Blair Rajamaki; Sharea Ijaz; Christina Tikka; Jani H Ruotsalainen; Michael B Edmond; Riitta Sauni; F Selcen Kilinc Balci Journal: Cochrane Database Syst Rev Date: 2019-07-01
Authors: B Poller; S Hall; C Bailey; S Gregory; R Clark; P Roberts; A Tunbridge; V Poran; B Crook; C Evans Journal: J Hosp Infect Date: 2018-02-05 Impact factor: 3.926
Authors: Hilary Drake; Darin Abbey; Chelsea Holmes; Anna Macdonald; Laura Mackinnon; JoAnne Slinn; Jared Baylis Journal: Simul Healthc Date: 2020-12 Impact factor: 1.929
Authors: Daniel Bauer; Andrea C Lörwald; Sandra Wüst; Helmut Beltraminelli; Miria Germano; Adrian Michel; Kai P Schnabel Journal: BMC Med Educ Date: 2021-06-21 Impact factor: 2.463
Authors: Jos H Verbeek; Blair Rajamaki; Sharea Ijaz; Riitta Sauni; Elaine Toomey; Bronagh Blackwood; Christina Tikka; Jani H Ruotsalainen; F Selcen Kilinc Balci Journal: Cochrane Database Syst Rev Date: 2020-04-15