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Continuous chest compressions are associated with higher peak inspiratory pressures when compared to 30:2 in an experimental cardiac arrest model
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Medicine, Department of Surgical Sciences, Anaesthesiology and Intensive Care.ORCID iD: 0000-0003-4289-8202
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Medicine, Department of Surgical Sciences, Anaesthesiology and Intensive Care.ORCID iD: 0000-0001-6775-5051
Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Disciplinary Domain of Medicine and Pharmacy, research centers etc., Uppsala Clinical Research Center (UCR).ORCID iD: 0000-0002-9368-6325
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2023 (English)In: Intensive Care Medicine Experimental, E-ISSN 2197-425X, Vol. 11, no 1, article id 75Article in journal (Refereed) Published
Abstract [en]

BACKGROUND: Ventilation during cardiopulmonary resuscitation (CPR) has long been a part of the standard treatment during cardiac arrests. Ventilation is usually given either during continuous chest compressions (CCC) or during a short pause after every 30 chest compressions (30:2). There is limited knowledge of how ventilation is delivered if it effects the hemodynamics and if it plays a role in the occurrence of lung injuries. The aim of this study was to compare ventilation parameters, hemodynamics, blood gases and lung injuries during experimental CPR given with CCC and 30:2 in a porcine model.

METHODS: Sixteen pigs weighing approximately 33 kg were randomized to either receive CPR with CCC or 30:2. Ventricular fibrillation was induced by passing an electrical current through the heart. CPR was started after 3 min and given for 20 min. Chest compressions were provided mechanically with a chest compression device and ventilations were delivered manually with a self-inflating bag and 12 l/min of oxygen. During the experiment, ventilation parameters and hemodynamics were sampled continuously, and arterial blood gases were taken every five minutes. After euthanasia and cessation of CPR, the lungs and heart were removed in block and visually examined followed by sampling of lung tissue which were examined using microscopy.

RESULTS: In the CCC group and the 30:2 group, peak inspiratory pressure (PIP) was 58.6 and 35.1 cmH2O (p < 0.001), minute volume (MV) 2189.6 and 1267.1 ml (p < 0.001), peak expired carbon dioxide (PECO2) 28.6 and 39.4 mmHg (p = 0.020), partial pressure of carbon dioxide (PaCO2) 50.2 and 61.1 mmHg (p = 0.013) and pH 7.3 and 7.2 (p = 0.029), respectively. Central venous pressure (CVP) decreased more over time in the 30:2 group (p = 0.023). All lungs were injured, but there were no differences between the groups.

CONCLUSIONS: Ventilation during CCC resulted in a higher PIP, MV and pH and lower PECO2 and PaCO2, showing that ventilation mode during CPR can affect ventilation parameters and blood gases.
Place, publisher, year, edition, pages
Springer, 2023. Vol. 11, no 1, article id 75
Keywords [en]
Animal model, Cardiac arrest, Cardiopulmonary resuscitation, Lung injuries, Ventilation
National Category
Cardiology and Cardiovascular Disease Anesthesiology and Intensive Care
Identifiers
URN: urn:nbn:se:uu:diva-515832DOI: 10.1186/s40635-023-00559-7ISI: 001101873200001PubMedID: 37938394OAI: oai:DiVA.org:uu-515832DiVA, id: diva2:1811385
Funder
Uppsala UniversityAvailable from: 2023-11-13 Created: 2023-11-13 Last updated: 2026-03-16Bibliographically approved
In thesis
1. Exploring ventilation during cardiopulmonary resuscitation: Experimental and clinical insights
Open this publication in new window or tab >>Exploring ventilation during cardiopulmonary resuscitation: Experimental and clinical insights
2026 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

Ventilation during cardiopulmonary resuscitation remains understudied with current guideline recommendations for the treatment relying on low level evidence and expert opinion. The aim of this doctoral project was to explore ventilation during cardiopulmonary resuscitation, both in the experimental and clinical setting.

Study I investigated whether a suction cup on a mechanical chest compression device intended to assist chest recoil affected the haemodynamics and ventilation in an experimental porcine model. No difference in EtCO2, as a measurement of cardiac output, or ventilation could be found, although the suction cup increased the coronary perfusion pressure.

In study II, ventilation parameters, haemodynamics, blood gases and lung injuries were compared between ventilation during continuous chest compressions and ventilations given during a pause of the chest compressions (30:2) in an experimental porcine model. Continuous chest compressions were associated with higher peak inspiratory pressure, lower EtCO2 and PaCO2. No differences were found with regards to lung injuries between the groups.

Study III aimed to develop and test a novel algorithm designed to extract accurate ventilation parameters from ventilation waveform signals, gathered during experimental CPR, in the presence of chest compression artefacts in the signal, that otherwise interferes with the parameter extraction. The algorithm was tested with a pneumotacography device and with mechanical ventilators giving ventilation parameters with known values. The algorithm deviated only slightly from the ventilator settings and outperformed the standard software of the pneumotachograph.

Study IV was an observational multicentre study that aimed to describe ventilation parameters during cardiopulmonary resuscitation. Patients were included from five sites, four out of hospital and one in hospital. Included in the study were 241 patients and 28120 ventilations. The ventilations were heterogenous and varied with airway modality and ventilation mode. Bag-valve-mask ventilations were associated with large levels of leakage and asynchronous ventilations with endotracheal tubes with high airway pressures. No obvious signs of hyperventilation were found.

Future research on cardiopulmonary resuscitation should when possible include measurements of ventilation, in order to deduce if the varying ventilation parameters affects outcomes and to decide optimal ventilation strategies for survival.
Place, publisher, year, edition, pages
Uppsala: Acta Universitatis Upsaliensis, 2026. p. 99
Series
Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Medicine, ISSN 1651-6206 ; 2244
Keywords
Cardiac arrest, cardiopulmonary resuscitation, ventilation, ventilation parameters, advanced life support
National Category
Anesthesiology and Intensive Care
Research subject
Medical Science
Identifiers
urn:nbn:se:uu:diva-581885 (URN)978-91-513-2773-0 (ISBN)
Public defence
2026-05-08, H:son Holmdahlsalen, Akademiska sjukhuset ing 100, Dag Hammarskjölds väg 8, Uppsala, 13:00 (Swedish)
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Supervisors
Available from: 2026-04-17 Created: 2026-03-16 Last updated: 2026-04-17

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Mälberg, JohanSpangler, DouglasHadziosmanovic, NerminSmekal, DavidRubertsson, Sten

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