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Trajectory van eind-expiratoire CO2 bij OHCA: monitor 7-21 minuten voor betrouwbare ROSC-voorspelling

Secundaire analyse van de cluster-gerandomiseerde Pragmatic Airway Resuscitation Trial (PART) bij 1.168 patiënten met out-of-hospital cardiac arrest (OHCA). Gemiddelde eind-expiratoire CO2 (EtCO2) per 1-minuut-epoche werd gegroepeerd met trajectory-modeling in stijgend versus dalend patroon, gestratificeerd naar getuige (witnessed/unwitnessed) en initiële EtCO2 (laag ≤30, matig 31-49, hoog ≥50 mmHg). Overall ROSC 18,2% (30,5% getuigde versus 10,5% niet-getuigde). Bij getuigde arrests werden 95%-BI's tussen stijgend en dalend traject pas op 8 minuten (lage initiële EtCO2; RR 3,06), 12 minuten (matig; RR 1,95) en 21 minuten (hoog; RR 2,12) niet-overlappend. Bij niet-getuigde arrests reeds op 7 minuten (RR 3,56). Dynamische EtCO2-trajectory-monitoring biedt dus vroege prognostische informatie tijdens reanimatie, maar de minimaal benodigde observatieduur hangt af van getuige-status en initiële EtCO2-waarde.

Abstract (original)

BACKGROUND:Exhaled end-tidal carbon dioxide (EtCO2) trajectory is associated with out-of-hospital cardiac arrest (OHCA) outcomes. However, the minimum EtCO2monitoring duration needed to discriminate return of spontaneous circulation (ROSC) from non-ROSC remains unknown. We sought to determine the EtCO2trajectory observation time required to differentiate ROSC from non-ROSC patients.METHODS:We performed a secondary analysis of the cluster-randomized Pragmatic Airway Resuscitation Trial (PART), which assessed endotracheal intubation or laryngeal tube strategies in OHCA resuscitation. We summarized mean EtCO2in 1-minute epochs over the resuscitation. Cases were stratified a priori by: (1) witnessed versus unwitnessed status, and (2) initial EtCO2: low (≤30 mm Hg), moderate (31–49), and high (≥50). Within each stratum, group-based trajectory modeling (GBTM) was used to identify latent EtCO2trajectory classes, and patients were categorized into an upward or downward trajectory. To balance trajectory groups on baseline characteristics including age, sex, race, initial rhythm, location, and bystander CPR, we applied inverse probability of treatment weighting. We fit weighted pooled logistic regression models to estimate risk ratios (RRs) for ROSC comparing upward versus downward EtCO2trajectories. Within each stratum, we identified the earliest minute when CIs between upward versus downward EtCO2trajectories no longer overlapped.RESULTS:EtCO2data were available for 1168 patients: 452 (38.6%) witnessed and 716 (61.1%) unwitnessed. Patients were predominantly men (63.5%), with a median age of 65 years (Q1, Q3: 53–75), majority White race (51.3%), and presenting in a nonpublic setting (85.4%). Overall ROSC was 18.2%: 30.5% of witnessed and 10.5% of unwitnessed. Among witnessed arrests, 95% CI for upward versus downward EtCO2trajectories no longer overlapped at 8 minutes for low initial EtCO2(RR, 3.06; 95% CI, 1.49, 6.71), 12 minutes for moderate EtCO2(RR, 1.95; 95% CI, 1.23, 3.48), and 21 minutes for high EtCO2(RR, 2.12; 95% CI, 1.30, 3.73). Among unwitnessed arrests, nonoverlapping CIs were first observed at 7 minutes (RR, 3.56; 95% CI, 1.53, 10.37).CONCLUSIONS:Depending on witness status and initial EtCO2, between 7 and 21 minutes of monitoring are needed to reliably differentiate upward from downward EtCO2trajectories during OHCA resuscitation. Dynamic EtCO2trajectory monitoring may provide early prognostic information to guide resuscitation.

Dit artikel is een samenvatting van een publicatie in Circulation. Voor het volledige artikel, alle details en referenties verwijzen wij u naar de oorspronkelijke bron.

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