BACKGROUND: Trauma resuscitations require a high level of team performance. This study evaluated the impact of a comprehensive effort to improve trauma care through multidisciplinary education and the use of simulation training to reinforce training and evaluate performance. METHODS: For a 1-year period, expanded trauma education including monthly trauma simulation sessions using high-fidelity simulators was implemented. All members of the multidisciplinary trauma resuscitation team participated in education, including simulations. Each simulation session included 2 trauma scenarios that were videotaped for debriefing as well as subsequent analysis of team performance. Scored simulations were divided into early (initial 4 months) and late (final 4 months) for comparison. RESULTS: For the first year of the program, 160 members of our multidisciplinary team participated in the simulation. In the early group, the mean percentage of appropriately completed tasks was 65%, whereas in the late group, this increased to 75% (P < .05). Improvements were also observed in initial assessment, airway management, management of pelvic fractures, and cervical spine care. CONCLUSIONS: Training of a multidisciplinary team in the care of pediatric trauma patients can be enhanced and evaluated through the use of high-fidelity simulation. Improvements in team performance using innovative technology can translate into more efficient care with fewer errors.
BACKGROUND:Trauma resuscitations require a high level of team performance. This study evaluated the impact of a comprehensive effort to improve trauma care through multidisciplinary education and the use of simulation training to reinforce training and evaluate performance. METHODS: For a 1-year period, expanded trauma education including monthly trauma simulation sessions using high-fidelity simulators was implemented. All members of the multidisciplinary trauma resuscitation team participated in education, including simulations. Each simulation session included 2 trauma scenarios that were videotaped for debriefing as well as subsequent analysis of team performance. Scored simulations were divided into early (initial 4 months) and late (final 4 months) for comparison. RESULTS: For the first year of the program, 160 members of our multidisciplinary team participated in the simulation. In the early group, the mean percentage of appropriately completed tasks was 65%, whereas in the late group, this increased to 75% (P < .05). Improvements were also observed in initial assessment, airway management, management of pelvic fractures, and cervical spine care. CONCLUSIONS: Training of a multidisciplinary team in the care of pediatric traumapatients can be enhanced and evaluated through the use of high-fidelity simulation. Improvements in team performance using innovative technology can translate into more efficient care with fewer errors.
Authors: Stephen E Muething; Anthony Goudie; Pamela J Schoettker; Lane F Donnelly; Martha A Goodfriend; Tracey M Bracke; Patrick W Brady; Derek S Wheeler; James M Anderson; Uma R Kotagal Journal: Pediatrics Date: 2012-07-16 Impact factor: 7.124
Authors: Rosemary Nabaweesi; Laura Morlock; Charles Lule; Susan Ziegfeld; Andrea Gielen; Paul M Colombani; Stephen M Bowman Journal: Pediatr Surg Int Date: 2014-08-21 Impact factor: 1.827
Authors: Jared Chiarchiaro; Rachel A Schuster; Natalie C Ernecoff; Amber E Barnato; Robert M Arnold; Douglas B White Journal: Ann Am Thorac Soc Date: 2015-04
Authors: Gabriel E Herrera-Almario; Katherine Kirk; Veronica T Guerrero; Kwonho Jeong; Sara Kim; Giselle G Hamad Journal: Am J Surg Date: 2015-10-17 Impact factor: 2.565