Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-25T14:01:03.411Z Has data issue: false hasContentIssue false

LO72: Implementation of an educational program to improve the cardiac arrest diagnostic accuracy of ambulance communication officers: a concurrent control before-after study

Published online by Cambridge University Press:  15 May 2017

C. Vaillancourt*
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
A. Kasaboski
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
M. Charette
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
L. Calder
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
L. Boyle
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
S. Nakao
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
D. Crete
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
M. Kline
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
R. Souchuk
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
N. Kristensen
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
G.A. Wells
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
I.G. Stiell
Affiliation:
Ottawa Hospital Research Institute, Ottawa, ON
*
*Corresponding authors

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Introduction: Most ambulance communication officers receive minimal education on agonal breathing, often leading to unrecognized out-of-hospital cardiac arrest (OHCA). We sought to evaluate the impact of an educational program on cardiac arrest recognition, and on bystander CPR and survival rates. Methods: Ambulance communication officers in Ottawa, Canada received additional training on agonal breathing, while the control site (Windsor, Canada) did not. Sites were compared to their pre-study performance (before-after design), and to each other (concurrent control). Trained investigators used a piloted-standardized data collection tool when reviewing the recordings for all potential OHCA cases submitted. OHCA was confirmed using our local OHCA registry, and we requested 9-1-1 recordings for OHCA cases not initially suspected. Two independent investigators reviewed medical records for non-OHCA cases receiving telephone-assisted CPR in Ottawa. We present descriptive and chi-square statistics. Results: There were 988 confirmed and suspected OHCA in the “before” (540 Ottawa; 448 Windsor), and 1,076 in the “after” group (689 Ottawa; 387 Windsor). Characteristics of “after” group OHCA patients were: mean age (68.1 Ottawa, 68.2 Windsor); Male (68.5% Ottawa, 64.8% Windsor); witnessed (45.0% Ottawa, 41.9% Windsor); and initial rhythm VF/VT (Ottawa 28.9, Windsor 22.5%). Before-after comparisons were: for cardiac arrest recognition (from 65.4% to 71.9% in Ottawa p=0.03; from 70.9% to 74.1% in Windsor p=0.37); for bystander CPR rates (from 23.0% to 35.9% in Ottawa p=0.0001; from 28.2% to 39.4% in Windsor p=0.001); and for survival to hospital discharge (from 4.1% to 12.5% in Ottawa p=0.001; from 3.9% to 6.9% in Windsor p=0.03). “After” group comparisons between Ottawa and Windsor (control) were not statistically different, except survival (p=0.02). Agonal breathing was common (25.6% Ottawa, 22.4% Windsor) and present in 18.5% of missed cases (15.8% Ottawa, 22.2% Windsor p=0.27). In Ottawa, 31 patients not in OHCA received chest compressions resulting from telephone-assisted CPR instructions. None suffered injury or adverse effects. Conclusion: While all OHCA outcomes improved over time, the educational intervention significantly improved OHCA recognition in Ottawa, and appeared to mitigate the impact of agonal breathing.

Type
Oral Presentations
Copyright
Copyright © Canadian Association of Emergency Physicians 2017