PURPOSE: Mechanical chest compression devices, such as the AutoPulse(®), have been developed to overcome problems associated with manual CPR (M-CPR). Animal and human studies have shown that AutoPulse CPR improves hemodynamic parameters over M-CPR. However, human studies conducted in the prehospital setting have conflicting results as to the AutoPulse's efficacy in improving survival. The Circulation Improving Resuscitation Care (CIRC) Trial is designed to evaluate the effectiveness of integrated AutoPulse-CPR (iA-CPR) (i.e., M-CPR followed by AutoPulse(®)-CPR) in a randomized controlled trial that addresses methodological issues that may have influenced the results of previous studies. METHODS: This paper describes the methodology of the CIRC trial. RESULTS: Unlike previous trials the CIRC trial studies iA-CPR where emphasis is placed on reducing "hands-off" time. The trial has six unique features: (1) training of all EMS providers in a standardized deployment strategy that reduces hands-off time and continuous monitoring for protocol compliance. (2) A pre-trial simulation study of provider compliance with the trial protocol. (3) Three distinct study phases (in-field training, run-in, and statistical inclusion) to minimize the Hawthorne effect and other biases. (4) Monitoring of the CPR process using either transthoracic impedance or accelerometer data. (5) Randomization at the subject level after the decision to resuscitate is made to reduce selection bias. (6) Use of the Group Sequential Double Triangular Test with sufficient power to determine superiority, inferiority, or equivalence. CONCLUSION: This unique, large, multicenter study comparing the effectiveness of iA-CPR to M-CPR will contribute to the science of the treatment of out-of-hospital cardiac arrest as well as to the design of future trials.
PURPOSE: Mechanical chest compression devices, such as the AutoPulse(®), have been developed to overcome problems associated with manual CPR (M-CPR). Animal and human studies have shown that AutoPulse CPR improves hemodynamic parameters over M-CPR. However, human studies conducted in the prehospital setting have conflicting results as to the AutoPulse's efficacy in improving survival. The Circulation Improving Resuscitation Care (CIRC) Trial is designed to evaluate the effectiveness of integrated AutoPulse-CPR (iA-CPR) (i.e., M-CPR followed by AutoPulse(®)-CPR) in a randomized controlled trial that addresses methodological issues that may have influenced the results of previous studies. METHODS: This paper describes the methodology of the CIRC trial. RESULTS: Unlike previous trials the CIRC trial studies iA-CPR where emphasis is placed on reducing "hands-off" time. The trial has six unique features: (1) training of all EMS providers in a standardized deployment strategy that reduces hands-off time and continuous monitoring for protocol compliance. (2) A pre-trial simulation study of provider compliance with the trial protocol. (3) Three distinct study phases (in-field training, run-in, and statistical inclusion) to minimize the Hawthorne effect and other biases. (4) Monitoring of the CPR process using either transthoracic impedance or accelerometer data. (5) Randomization at the subject level after the decision to resuscitate is made to reduce selection bias. (6) Use of the Group Sequential Double Triangular Test with sufficient power to determine superiority, inferiority, or equivalence. CONCLUSION: This unique, large, multicenter study comparing the effectiveness of iA-CPR to M-CPR will contribute to the science of the treatment of out-of-hospital cardiac arrest as well as to the design of future trials.
Authors: Alexander Nürnberger; Harald Herkner; Fritz Sterz; Jan-Aage Olsen; Michael Lozano; Pierre M van Grunsven; E Brooke Lerner; David Persse; Reinhard Malzer; Marc A Brouwer; Mark Westfall; Chris M Souders; David T Travis; Ulrich R Herken; Lars Wik Journal: Eur J Clin Invest Date: 2017-05-16 Impact factor: 4.686
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Authors: Sten Rubertsson; Johan Silfverstolpe; Liselott Rehn; Thomas Nyman; Rob Lichtveld; Rene Boomars; Wendy Bruins; Björn Ahlstedt; Helena Puggioli; Erik Lindgren; David Smekal; Gunnar Skoog; Robert Kastberg; Anna Lindblad; David Halliwell; Martyn Box; Fredrik Arnwald; Bjarne Madsen Hardig; Douglas Chamberlain; Johan Herlitz; Rolf Karlsten Journal: Scand J Trauma Resusc Emerg Med Date: 2013-01-25 Impact factor: 2.953
Authors: Jan Belohlavek; Karel Kucera; Jiri Jarkovsky; Ondrej Franek; Milana Pokorna; Jiri Danda; Roman Skripsky; Vit Kandrnal; Martin Balik; Jan Kunstyr; Jan Horak; Ondrej Smid; Jaroslav Valasek; Vratislav Mrazek; Zdenek Schwarz; Ales Linhart Journal: J Transl Med Date: 2012-08-10 Impact factor: 5.531