Bag-Valve-Mask Ventilation and Survival from Out-of-Hospital Cardiac Arrest: A Multicenter Study.
Ahamed H IdrisElisabete AramendiBrian LerouxXabier JaureguibeitiaBetty Y YangSarah ShaverMary P ChangTom ReaPeter J KudenchukJim ChristensonChristian VaillancourtClifton W CallawayDavid D SalcidoJonas CarsonJennifer BlackwoodHenry E WangPublished in: Circulation (2023)
Background: Few studies have measured ventilation during early cardiopulmonary resuscitation (CPR) before advanced airway placement. Resuscitation guidelines recommend pauses after every 30 chest compressions to deliver ventilations. The effectiveness of bag-valve-mask ventilation delivered during the pause in chest compressions is unknown. We sought to determine: (1) the incidence of lung inflation with bag-valve-mask ventilation during 30:2 CPR; and (2) the association of ventilation with outcomes after out-of-hospital cardiac arrest. Methods: We studied patients with out-of-hospital cardiac arrest from 6 sites of the Resuscitation Outcomes Consortium CCC study (Trial of Continuous Compressions versus Standard CPR in Patients with Out-of-Hospital Cardiac Arrest). We analyzed patients assigned to the 30:2 CPR arm with ≥2 minutes of thoracic bioimpedance signal recorded with a cardiac defibrillator/monitor. Detectable ventilation waveforms were defined as having a bioimpedance amplitude ≥0.5 Ω (corresponding to ≥250 mL V T ) and a duration ≥1 s. We defined a chest compression pause as a 3- to 15-s break in chest compressions. We compared the incidence of ventilation and outcomes in 2 groups: patients with ventilation waveforms in <50% of pauses (group 1) versus those with waveforms in ≥50% of pauses (group 2). Results: Among 1976 patients, the mean age was 65 years; 66% were male. From the start of chest compressions until advanced airway placement, mean±SD duration of 30:2 CPR was 9.8±4.9 minutes. During this period, we identified 26861 pauses in chest compressions; 60% of patients had ventilation waveforms in <50% of pauses (group 1, n=1177), and 40% had waveforms in ≥50% of pauses (group 2, n=799). Group 1 had a median of 12 pauses and 2 ventilations per patient versus group 2, which had 12 pauses and 12 ventilations per patient. Group 2 had higher rates of prehospital return of spontaneous circulation (40.7% versus 25.2%; P <0.0001), survival to hospital discharge (13.5% versus 4.1%; P <0.0001), and survival with favorable neurological outcome (10.6% versus 2.4%; P <0.0001). These associations persisted after adjustment for confounders. Conclusions: In this study, lung inflation occurred infrequently with bag-valve-mask ventilation during 30:2 CPR. Lung inflation in ≥50% of pauses was associated with improved return of spontaneous circulation, survival, and survival with favorable neurological outcome.
Keyphrases
- cardiopulmonary resuscitation
- cardiac arrest
- respiratory failure
- mechanical ventilation
- end stage renal disease
- aortic valve
- ejection fraction
- mitral valve
- aortic stenosis
- free survival
- randomized controlled trial
- systematic review
- chronic kidney disease
- clinical trial
- newly diagnosed
- peritoneal dialysis
- left ventricular
- spinal cord
- intensive care unit
- prognostic factors
- acute respiratory distress syndrome
- case report
- skeletal muscle
- extracorporeal membrane oxygenation
- metabolic syndrome
- spinal cord injury
- atrial fibrillation
- brain injury
- phase iii
- weight loss
- ultrasound guided
- positive airway pressure