• Resuscitation · Dec 2018

    Enhancement of capnogram waveform in the presence of chest compression artefact during cardiopulmonary resuscitation.

    • Sofía Ruiz de Gauna, Mikel Leturiondo, J Julio Gutiérrez, Jesus M Ruiz, Digna M González-Otero, James K Russell, and Mohamud Daya.
    • Department of Communications Engineering, University of the Basque Country, UPV/EHU, 48013 Bilbao, Spain. Electronic address: sofia.ruizdegauna@ehu.eus.
    • Resuscitation. 2018 Dec 1; 133: 53-58.

    BackgroundCurrent resuscitation guidelines emphasize the use of waveform capnography to help guide rescuers during cardiopulmonary resuscitation (CPR). However, chest compressions often cause oscillations in the capnogram, impeding its reliable interpretation, either visual or automated. The aim of the study was to design an algorithm to enhance waveform capnography by suppressing the chest compression artefact.MethodsMonitor-defibrillator recordings from 202 patients in out-of-hospital cardiac arrest were analysed. Capnograms were classified according to the morphology of the artefact. Ventilations were annotated using the transthoracic impedance signal acquired through defibrillation pads. The suppression algorithm is designed to operate in real-time, locating distorted intervals and restoring the envelope of the capnogram. We evaluated the improvement in automated ventilation detection, estimation of ventilation rate, and detection of excessive ventilation rates (over-ventilation) using the capnograms before and after artefact suppression.ResultsA total of 44 267 ventilations were annotated. After artefact suppression, sensitivity (Se) and positive predictive value (PPV) of the ventilation detector increased from 91.9/89.5% to 98.0/97.3% in the distorted episodes (83/202). Improvement was most noticeable for high-amplitude artefact, for which Se/PPV raised from 77.6/73.5% to 97.1/96.1%. Estimation of ventilation rate and detection of over-ventilation also upgraded. The suppression algorithm had minimal impact in non-distorted data.ConclusionVentilation detection based on waveform capnography improved after chest compression artefact suppression. Moreover, the algorithm enhances the capnogram tracing, potentially improving its clinical interpretation during CPR. Prospective research in clinical settings is needed to understand the feasibility and utility of the method.Copyright © 2018 Elsevier B.V. All rights reserved.

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