TY - JOUR
T1 - Impact of training in medical disaster management
T2 - A pilot study using a new tool for live simulation
AU - Ingrassia, Pier Luigi
AU - Colombo, Davide
AU - Barra, Federico Lorenzo
AU - Carenzo, Luca
AU - Franc, Jeffrey
AU - Della Corte, Francesco
PY - 2013/12
Y1 - 2013/12
N2 - Objectives: The aim of this study was to test a new disaster simulation suite (DSS), evaluating its application during the same type of full-scale exercise on 2 different occasions. Our hypothesis was that the system would allow us to detect differences between trained and nontrained physicians during event management. Methods: Players (physicians) were classed as trained or nonrained based on their background in disaster medicine training. We simulated the collapse of a ceiling structure in a crowded room. Using the DSS, we electronically collected data relative to key prehospital and hospital times, triage accuracy, command-and-control and prehospital treatment accuracy. Results: No usability problems arose during either simulation. Trained physicians were faster than nontrained physicians in dispatching the victims from scene to hospital (median [interquartile range] times, 67.5 [50.0-111.0] vs 145.0 [110.0-150.0] minutes, P<.001); trained physicians also treated and discharged more patients in the emergency department (32/38 vs 14/31, P<.001) and performed better on command-and-control items (31/44 vs 17/44 for trained and nontrained players respectively, P<.05). No differences were found as regards triage or prehospital treatment accuracy. Conclusions: Using the DSS in 2 comparable scenarios allowed us to identify differences in mass casualty responses of trained and nontrained physicians. These results may reflect some of the specific objectives of disaster medicine training oriented to the organizational management of health crises rather than to the clinical management of injuries.
AB - Objectives: The aim of this study was to test a new disaster simulation suite (DSS), evaluating its application during the same type of full-scale exercise on 2 different occasions. Our hypothesis was that the system would allow us to detect differences between trained and nontrained physicians during event management. Methods: Players (physicians) were classed as trained or nonrained based on their background in disaster medicine training. We simulated the collapse of a ceiling structure in a crowded room. Using the DSS, we electronically collected data relative to key prehospital and hospital times, triage accuracy, command-and-control and prehospital treatment accuracy. Results: No usability problems arose during either simulation. Trained physicians were faster than nontrained physicians in dispatching the victims from scene to hospital (median [interquartile range] times, 67.5 [50.0-111.0] vs 145.0 [110.0-150.0] minutes, P<.001); trained physicians also treated and discharged more patients in the emergency department (32/38 vs 14/31, P<.001) and performed better on command-and-control items (31/44 vs 17/44 for trained and nontrained players respectively, P<.05). No differences were found as regards triage or prehospital treatment accuracy. Conclusions: Using the DSS in 2 comparable scenarios allowed us to identify differences in mass casualty responses of trained and nontrained physicians. These results may reflect some of the specific objectives of disaster medicine training oriented to the organizational management of health crises rather than to the clinical management of injuries.
KW - Case management
KW - Disasters
KW - Simulations
KW - Training
UR - http://www.scopus.com/inward/record.url?scp=84900325214&partnerID=8YFLogxK
M3 - Article
SN - 1137-6821
VL - 25
SP - 459
EP - 466
JO - Emergencias
JF - Emergencias
IS - 6
ER -