Importance: Bystander cardiopulmonary resuscitation (CPR) is crucial for survival after cardiac arrest but not performed in most cases. New, low-cost, and easily accessible training methods, such as virtual reality (VR), may reach broader target populations, but data on achieved CPR skills are lacking. Objective: To compare CPR quality between VR and face-to-face CPR training. Design, Setting, and Participants: Randomized noninferiority trial with a prospective randomized open blinded end point design. Participants were adult attendees from the science section of the Lowlands Music Festival (August 16 to 18, 2019) in the Netherlands. Analysis began September 2019. Interventions: Two standardized 20-minute protocols on CPR and automated external defibrillator use: instructor-led face-to-face training or VR training using a smartphone app endorsed by the Resuscitation Council (United Kingdom). Main Outcomes and Measures: During a standardized CPR scenario following the training, we assessed the primary outcome CPR quality, measured as chest compression depth and rate using CPR manikins. Overall CPR performance was assessed by examiners, blinded for study groups, using a European Resuscitation Council-endorsed checklist (maximum score, 13). Additional secondary outcomes were chest compression fraction, proportions of participants with mean depth (50 mm-60 mm) or rate (100 min-1-120 min-1) within guideline ranges, and proportions compressions with full release. Results: A total of 381 participants were randomized: 216 women (57%); median (interquartile range [IQR]) age, 26 (22-31) years. The VR app (n = 190 [49.9%]) was inferior to face-to-face training (n = 191 [50.1%]) for chest compression depth (mean [SD], VR: 49 [10] mm vs face to face: 57 [5] mm; mean [95% CI] difference, -8 [-9 to -6] mm), and noninferior for chest compression rate (mean [SD]: VR: 114 [12] min-1 vs face to face: 109 [12] min-1; mean [95% CI] difference, 6 [3 to 8] min-1). The VR group had lower overall CPR performance scores (median [IQR], 10 [8-12] vs 12 [12-13]; P < .001). Chest compression fraction (median [IQR], 61% [52%-66%] vs 67% [62%-71%]; P < .001) and proportions of participants fulfilling depth (51% [n = 89] vs 75% [n = 133], P < .001) and rate (50% [n = 87] vs 63% [n = 111], P = .01) requirements were also lower in the VR group. The proportion of compressions with full release was higher in the VR group (median [IQR], 98% [59%-100%] vs 88% [55%-99%]; P = .002). Conclusions and Relevance: In this randomized noninferiority trial, VR training resulted in comparable chest compression rate but inferior compression depth compared with face-to-face training. Given the potential of VR training to reach a larger target population, further development is needed to achieve the compression depth and overall CPR skills acquired by face-to-face training. Trial Registration: ClinicalTrials.gov identifier: NCT04013633.
RCT Entities:
Importance: Bystander cardiopulmonary resuscitation (CPR) is crucial for survival after cardiac arrest but not performed in most cases. New, low-cost, and easily accessible training methods, such as virtual reality (VR), may reach broader target populations, but data on achieved CPR skills are lacking. Objective: To compare CPR quality between VR and face-to-face CPR training. Design, Setting, and Participants: Randomized noninferiority trial with a prospective randomized open blinded end point design. Participants were adult attendees from the science section of the Lowlands Music Festival (August 16 to 18, 2019) in the Netherlands. Analysis began September 2019. Interventions: Two standardized 20-minute protocols on CPR and automated external defibrillator use: instructor-led face-to-face training or VR training using a smartphone app endorsed by the Resuscitation Council (United Kingdom). Main Outcomes and Measures: During a standardized CPR scenario following the training, we assessed the primary outcome CPR quality, measured as chest compression depth and rate using CPR manikins. Overall CPR performance was assessed by examiners, blinded for study groups, using a European Resuscitation Council-endorsed checklist (maximum score, 13). Additional secondary outcomes were chest compression fraction, proportions of participants with mean depth (50 mm-60 mm) or rate (100 min-1-120 min-1) within guideline ranges, and proportions compressions with full release. Results: A total of 381 participants were randomized: 216 women (57%); median (interquartile range [IQR]) age, 26 (22-31) years. The VR app (n = 190 [49.9%]) was inferior to face-to-face training (n = 191 [50.1%]) for chest compression depth (mean [SD], VR: 49 [10] mm vs face to face: 57 [5] mm; mean [95% CI] difference, -8 [-9 to -6] mm), and noninferior for chest compression rate (mean [SD]: VR: 114 [12] min-1 vs face to face: 109 [12] min-1; mean [95% CI] difference, 6 [3 to 8] min-1). The VR group had lower overall CPR performance scores (median [IQR], 10 [8-12] vs 12 [12-13]; P < .001). Chest compression fraction (median [IQR], 61% [52%-66%] vs 67% [62%-71%]; P < .001) and proportions of participants fulfilling depth (51% [n = 89] vs 75% [n = 133], P < .001) and rate (50% [n = 87] vs 63% [n = 111], P = .01) requirements were also lower in the VR group. The proportion of compressions with full release was higher in the VR group (median [IQR], 98% [59%-100%] vs 88% [55%-99%]; P = .002). Conclusions and Relevance: In this randomized noninferiority trial, VR training resulted in comparable chest compression rate but inferior compression depth compared with face-to-face training. Given the potential of VR training to reach a larger target population, further development is needed to achieve the compression depth and overall CPR skills acquired by face-to-face training. Trial Registration: ClinicalTrials.gov identifier: NCT04013633.
Authors: Myra H Wyckoff; Eunice M Singletary; Jasmeet Soar; Theresa M Olasveengen; Robert Greif; Helen G Liley; David Zideman; Farhan Bhanji; Lars W Andersen; Suzanne R Avis; Khalid Aziz; Jason C Bendall; David C Berry; Vere Borra; Bernd W Böttiger; Richard Bradley; Janet E Bray; Jan Breckwoldt; Jestin N Carlson; Pascal Cassan; Maaret Castrén; Wei-Tien Chang; Nathan P Charlton; Adam Cheng; Sung Phil Chung; Julie Considine; Daniela T Costa-Nobre; Keith Couper; Katie N Dainty; Peter G Davis; Maria Fernanda de Almeida; Allan R de Caen; Edison F de Paiva; Charles D Deakin; Therese Djärv; Matthew J Douma; Ian R Drennan; Jonathan P Duff; Kathryn J Eastwood; Walid El-Naggar; Jonathan L Epstein; Raffo Escalante; Jorge G Fabres; Joe Fawke; Judith C Finn; Elizabeth E Foglia; Fredrik Folke; Karoline Freeman; Elaine Gilfoyle; Craig A Goolsby; Amy Grove; Ruth Guinsburg; Tetsuo Hatanaka; Mary Fran Hazinski; George S Heriot; Karen G Hirsch; Mathias J Holmberg; Shigeharu Hosono; Ming-Ju Hsieh; Kevin K C Hung; Cindy H Hsu; Takanari Ikeyama; Tetsuya Isayama; Vishal S Kapadia; Mandira Daripa Kawakami; Han-Suk Kim; David A Kloeck; Peter J Kudenchuk; Anthony T Lagina; Kasper G Lauridsen; Eric J Lavonas; Andrew S Lockey; Carolina Malta Hansen; David Markenson; Tasuku Matsuyama; Christopher J D McKinlay; Amin Mehrabian; Raina M Merchant; Daniel Meyran; Peter T Morley; Laurie J Morrison; Kevin J Nation; Michael Nemeth; Robert W Neumar; Tonia Nicholson; Susan Niermeyer; Nikolaos Nikolaou; Chika Nishiyama; Brian J O'Neil; Aaron M Orkin; Osokogu Osemeke; Michael J Parr; Catherine Patocka; Jeffrey L Pellegrino; Gavin D Perkins; Jeffrey M Perlman; Yacov Rabi; Joshua C Reynolds; Giuseppe Ristagno; Charles C Roehr; Tetsuya Sakamoto; Claudio Sandroni; Taylor Sawyer; Georg M Schmölzer; Sebastian Schnaubelt; Federico Semeraro; Markus B Skrifvars; Christopher M Smith; Michael A Smyth; Roger F Soll; Takahiro Sugiura; Sian Taylor-Phillips; Daniele Trevisanuto; Christian Vaillancourt; Tzong-Luen Wang; Gary M Weiner; Michelle Welsford; Jane Wigginton; Jonathan P Wyllie; Joyce Yeung; Jerry P Nolan; Katherine M Berg Journal: Resuscitation Date: 2021-11-11 Impact factor: 5.262
Authors: Joris Nas; Jos Thannhauser; Lara S F Konijnenberg; Robert-Jan M van Geuns; Niels van Royen; Judith L Bonnes; Marc A Brouwer Journal: JAMA Netw Open Date: 2022-05-02
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Authors: Joris Nas; Jos Thannhauser; Robert-Jan M van Geuns; Niels van Royen; Judith L Bonnes; Marc A Brouwer Journal: J Am Heart Assoc Date: 2021-01-14 Impact factor: 5.501
Authors: Daniyal Mansoor Ali; Butool Hisam; Natasha Shaukat; Noor Baig; Marcus Eng Hock Ong; Jonathan L Epstein; Eric Goralnick; Paul D Kivela; Bryan McNally; Junaid Razzak Journal: Scand J Trauma Resusc Emerg Med Date: 2021-03-29 Impact factor: 2.953
Authors: Travis W Murphy; Scott A Cohen; K Leslie Avery; Meenakshi P Balakrishnan; Ramani Balu; Muhammad Abdul Baker Chowdhury; David B Crabb; Karl W Huesgen; Charles W Hwang; Carolina B Maciel; Sarah S Gul; Francis Han; Torben K Becker Journal: Resusc Plus Date: 2020-11-04