Literature DB >> 27349359

Impact of a feedback device on chest compression quality during extended manikin CPR: a randomized crossover study.

Clément Buléon1, Julie Delaunay2, Jean-Jacques Parienti3, Laurent Halbout2, Xavier Arrot4, Jean-Louis Gérard5, Jean-Luc Hanouz6.   

Abstract

PURPOSES: Chest compressions require physical effort leading to increased fatigue and rapid degradation in the quality of cardiopulmonary resuscitation overtime. Despite harmful effect of interrupting chest compressions, current guidelines recommend that rescuers switch every 2 minutes. The impact on the quality of chest compressions during extended cardiopulmonary resuscitation has yet to be assessed. BASIC PROCEDURES: We conducted randomized crossover study on manikin (ResusciAnne; Laerdal). After randomization, 60 professional emergency rescuers performed 2 × 10 minutes of continuous chest compressions with and without a feedback device (CPRmeter). Efficient compression rate (primary outcome) was defined as the frequency target reached along with depth and leaning at the same time (recorded continuously). MAIN
FINDINGS: The 10-minute mean efficient compression rate was significantly better in the feedback group: 42% vs 21% (P< .001). There was no significant difference between the first (43%) and the tenth minute (36%; P= .068) with feedback. Conversely, a significant difference was evident from the second minute without feedback (35% initially vs 27%; P< .001). The efficient compression rate difference with and without feedback was significant every minute, from the second minute onwards. CPRmeter feedback significantly improved chest compression depth from the first minute, leaning from the second minute and rate from the third minute. PRINCIPAL
CONCLUSIONS: A real-time feedback device delivers longer effective, steadier chest compressions over time. An extrapolation of these results from simulation may allow rescuer switches to be carried out beyond the currently recommended 2 minutes when a feedback device is used.
Copyright © 2016 Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 27349359     DOI: 10.1016/j.ajem.2016.05.077

Source DB:  PubMed          Journal:  Am J Emerg Med        ISSN: 0735-6757            Impact factor:   2.469


  12 in total

1.  Measuring the effectiveness of a novel CPRcard™ feedback device during simulated chest compressions by non-healthcare workers.

Authors:  Alexander E White; Han Xian Ng; Wai Yee Ng; Eileen Kai Xin Ng; Stephanie Fook-Chong; Phek Hui Jade Kua; Marcus Eng Hock Ong
Journal:  Singapore Med J       Date:  2017-07       Impact factor: 1.858

2.  Does the use of cardiopulmonary resuscitation feedback devices improve the quality of chest compressions performed by doctors? A prospective, randomized, cross-over simulation study.

Authors:  Jolanta Majer; Milosz J Jaguszewski; Michael Frass; Marcin Leskiewicz; Jacek Smereka; Jerzy R Ładny; Oliver Robak; Łukasz Szarpak
Journal:  Cardiol J       Date:  2018-08-29       Impact factor: 2.737

3.  Paediatric chest compression performance improves via novel augmented-reality cardiopulmonary resuscitation feedback system: A mixed-methods pilot study in a simulation-based setting.

Authors:  Justin M Jeffers; Blake A Schreurs; James L Dean; Brandon Scott; Therese Canares; Sean Tackett; Brittany Smith; Emma Billings; Veena Billioux; Harshini D Sampathkumar; Keith Kleinman
Journal:  Resusc Plus       Date:  2022-07-09

4.  Addition of Audiovisual Feedback During Standard Compressions Is Associated with Improved Ability.

Authors:  Steve A Aguilar; Nicholas Asakawa; Cameron Saffer; Christine Williams; Steven Chuh; Lewei Duan
Journal:  West J Emerg Med       Date:  2018-02-26

5.  Impacts of chest compression cycle length and real-time feedback with a CPRmeter® on chest compression quality in out-of-hospital cardiac arrest: study protocol for a multicenter randomized controlled factorial plan trial.

Authors:  Clément Buléon; Jean-Jacques Parienti; Elodie Morilland-Lecoq; Laurent Halbout; Eric Cesaréo; Pierre-Yves Dubien; Benoit Jardel; Christophe Boyer; Kévin Husson; Florian Andriamirado; Xavier Benet; Emmanuel Morel-Marechal; Antoine Aubrion; Catalin Muntean; Erwan Dupire; Eric Roupie; Hervé Hubert; Christian Vilhelm; Pierre-Yves Gueugniaud
Journal:  Trials       Date:  2020-07-08       Impact factor: 2.279

6.  Effect of real-time visual feedback device 'Quality Cardiopulmonary Resuscitation (QCPR) Classroom' with a metronome sound on layperson CPR training in Japan: a cluster randomized control trial.

Authors:  Shota Tanaka; Kyoko Tsukigase; Takahiro Hara; Ryo Sagisaka; Helge Myklebust; Tonje Soraas Birkenes; Hiroyuki Takahashi; Ayana Iwata; Yutaro Kidokoro; Momoyo Yamada; Hiroki Ueta; Hiroshi Takyu; Hideharu Tanaka
Journal:  BMJ Open       Date:  2019-06-11       Impact factor: 2.692

7.  A comparison of cardiopulmonary resuscitation with standard manual compressions versus compressions with real-time audiovisual feedback: A randomized controlled pilot study.

Authors:  Amir Vahedian-Azimi; Farshid Rahimibashar; Andrew C Miller
Journal:  Int J Crit Illn Inj Sci       Date:  2020-03-06

8.  Implementation of Chest Compression Feedback Technology to Improve the Quality of Cardiopulmonary Resuscitation in the Emergency Department: A Quality Initiative Test-of-change Study.

Authors:  Jodie Pritchard; Jillian Roberge; Joseph Bacani; Michelle Welsford; Shawn Mondoux
Journal:  Cureus       Date:  2019-08-29

9.  Evaluation of manual chest compressions according to the updated cardiopulmonary resuscitation guidelines and the impact of feedback devices in an educational resuscitation course.

Authors:  Nao Urushibata; Kiyoshi Murata; Hideki Endo; Ayako Yoshiyuki; Yasuhiro Otomo
Journal:  BMC Emerg Med       Date:  2020-06-16

10.  Do automated real-time feedback devices improve CPR quality? A systematic review of literature.

Authors:  Debora Gugelmin-Almeida; Lucia Tobase; Thatiane Facholi Polastri; Heloisa Helena Ciqueto Peres; Sergio Timerman
Journal:  Resusc Plus       Date:  2021-03-27
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