Allison E Infinger1, Steven Vandeventer1, Jonathan R Studnek2. 1. Mecklenburg EMS Agency, Charlotte, NC, United States. 2. Mecklenburg EMS Agency, Charlotte, NC, United States. Electronic address: jonst@medic911.com.
Abstract
INTRODUCTION: Quality cardiopulmonary resuscitation (CPR) and timely defibrillation are associated with increasing survival to hospital discharge from out-of-hospital cardiac arrest (OHCA). The objective of this study was to demonstrate that performance coaching during an OHCA would improve compression depth and time to defibrillation (TTD). METHODS: This study was conducted in a single emergency medical services (EMS) agency and utilized data collected from 815 patients treated between 1/1/2012 and 12/31/2013. The intervention used multiple Plan-Do-Study-Act (PDSA) cycles to train fire captains to translate performance data into active direction. Testing began in simulation with small-scale expansions prior to system-wide implementation. Performance metrics included average (reported as a percentage) and actual compression depth (reported in millimeters), and TTD (an average in seconds). Analysis was conducted using Xbar and S control charts with standard assessment of special cause for performance data. A statistical shift was seen in means and standard deviations for both depth metrics. RESULTS: Average depth of compressions improved from 69.8% (SD=28.0%) to 80.4 (SD=21.8%). Depth of compressions delivered increased from 43.6mm (SD=8.2mm) to 47.2mm (SD=8.1mm). Analysis of the S charts indicates a statistical shift in process variation for TTD. CONCLUSION: Early results indicate that utilization of a CPR coach during OHCA improves compression depth and TTD. Further data are needed to assess sustainability.
INTRODUCTION: Quality cardiopulmonary resuscitation (CPR) and timely defibrillation are associated with increasing survival to hospital discharge from out-of-hospital cardiac arrest (OHCA). The objective of this study was to demonstrate that performance coaching during an OHCA would improve compression depth and time to defibrillation (TTD). METHODS: This study was conducted in a single emergency medical services (EMS) agency and utilized data collected from 815 patients treated between 1/1/2012 and 12/31/2013. The intervention used multiple Plan-Do-Study-Act (PDSA) cycles to train fire captains to translate performance data into active direction. Testing began in simulation with small-scale expansions prior to system-wide implementation. Performance metrics included average (reported as a percentage) and actual compression depth (reported in millimeters), and TTD (an average in seconds). Analysis was conducted using Xbar and S control charts with standard assessment of special cause for performance data. A statistical shift was seen in means and standard deviations for both depth metrics. RESULTS: Average depth of compressions improved from 69.8% (SD=28.0%) to 80.4 (SD=21.8%). Depth of compressions delivered increased from 43.6mm (SD=8.2mm) to 47.2mm (SD=8.1mm). Analysis of the S charts indicates a statistical shift in process variation for TTD. CONCLUSION: Early results indicate that utilization of a CPR coach during OHCA improves compression depth and TTD. Further data are needed to assess sustainability.
Authors: Stephen Pfeiffer; Kasper Glerup Lauridsen; Jesse Wenger; Elizabeth A Hunt; Sarah Haskell; Dianne L Atkins; Jordan M Duval-Arnould; Lynda J Knight; Adam Cheng; Elaine Gilfoyle; Felice Su; Shilpa Balikai; Sophie Skellett; Mok Yee Hui; Dana E Niles; Joan S Roberts; Vinay M Nadkarni; Ken Tegtmeyer; Maya Dewan Journal: Pediatr Emerg Care Date: 2021-08-01 Impact factor: 1.602