INTRODUCTION: Transport of patients with ongoing cardiopulmonary resuscitation (CPR) occurs frequently. It may not be possible to obtain rapid hospital access while maintaining CPR quality, because the ambulance's high speed can cause increased vibration and vehicle movement. We aimed to assess how the speed of ambulance affects chest compressions. MATERIALS AND METHODS: Five cycles of CPR were performed to the Resusci Anne manikin with the PC skill reporting system by experienced emergency medical technicians in ambulance traveling at one of four different speeds: stationary, 30, 60, or 90km/h. Performance and acceleration data of chest compressions at different speeds were compared using repeated measures analysis of variance (ANOVA). RESULTS: Fractions of chest compressions with adequate depth, duty cycles, average rates of chest compressions, and no flow fractions showed significant differences among different speeds (p=0.026, <0.001, <0.001, 0.005, respectively), while average depth of chest compressions did not. Accelerations of 2Hz component and ratios of 3-12Hz to 0-2Hz components showed significant differences among different speeds (p=0.001 for all). None of the outcome variables showed a significant difference between the two types of ambulance. CONCLUSIONS: The speed of ambulance affects some aspects in the quality of chest compression during transport. Chest compressions with excessive depth, the average rate of chest compressions, and no-flow fraction increase as the speed of ambulance increase. Increase in the speed of ambulance also causes relative increase of high frequency acceleration in the chest compression, which represents unnecessary movement and force applied.
INTRODUCTION: Transport of patients with ongoing cardiopulmonary resuscitation (CPR) occurs frequently. It may not be possible to obtain rapid hospital access while maintaining CPR quality, because the ambulance's high speed can cause increased vibration and vehicle movement. We aimed to assess how the speed of ambulance affects chest compressions. MATERIALS AND METHODS: Five cycles of CPR were performed to the Resusci Anne manikin with the PC skill reporting system by experienced emergency medical technicians in ambulance traveling at one of four different speeds: stationary, 30, 60, or 90km/h. Performance and acceleration data of chest compressions at different speeds were compared using repeated measures analysis of variance (ANOVA). RESULTS: Fractions of chest compressions with adequate depth, duty cycles, average rates of chest compressions, and no flow fractions showed significant differences among different speeds (p=0.026, <0.001, <0.001, 0.005, respectively), while average depth of chest compressions did not. Accelerations of 2Hz component and ratios of 3-12Hz to 0-2Hz components showed significant differences among different speeds (p=0.001 for all). None of the outcome variables showed a significant difference between the two types of ambulance. CONCLUSIONS: The speed of ambulance affects some aspects in the quality of chest compression during transport. Chest compressions with excessive depth, the average rate of chest compressions, and no-flow fraction increase as the speed of ambulance increase. Increase in the speed of ambulance also causes relative increase of high frequency acceleration in the chest compression, which represents unnecessary movement and force applied.
Authors: Brian M Clemency; Johanna C Innes; Michael Waldrop; Lynn J White; Eric Dievendorf; Robert Orlowski; Kejia Wang; Heather A Lindstrom; John M Canty; David Hostler Journal: J Emerg Med Date: 2021-01-13 Impact factor: 1.484
Authors: Jin Ho Beom; Min Joung Kim; Je Sung You; Hye Sun Lee; Ji Hoon Kim; Yoo Seok Park; Dong Min Shin; Hyun Soo Chung Journal: BMJ Open Date: 2018-09-28 Impact factor: 2.692
Authors: Theresa M Olasveengen; Mary E Mancini; Gavin D Perkins; Suzanne Avis; Steven Brooks; Maaret Castrén; Sung Phil Chung; Julie Considine; Keith Couper; Raffo Escalante; Tetsuo Hatanaka; Kevin K C Hung; Peter Kudenchuk; Swee Han Lim; Chika Nishiyama; Giuseppe Ristagno; Federico Semeraro; Christopher M Smith; Michael A Smyth; Christian Vaillancourt; Jerry P Nolan; Mary Fran Hazinski; Peter T Morley Journal: Resuscitation Date: 2020-10-21 Impact factor: 5.262
Authors: Aurora Magliocca; Davide Olivari; Daria De Giorgio; Davide Zani; Martina Manfredi; Antonio Boccardo; Alberto Cucino; Giulia Sala; Giovanni Babini; Laura Ruggeri; Deborah Novelli; Markus B Skrifvars; Bjarne Madsen Hardig; Davide Pravettoni; Lidia Staszewsky; Roberto Latini; Angelo Belloli; Giuseppe Ristagno Journal: J Am Heart Assoc Date: 2019-01-08 Impact factor: 5.501