ECG rhythm and airway management make all the difference during a heart attack
In cardiac arrest, the speed and type of treatment can literally mean life or death in the immediate term, but can also affect health outcomes after successful resuscitation.
During out-of-hospital cardiac arrest (OHCA), effective treatment starts with cardiopulmonary resuscitation (CPR) and, if necessary, electric shock by a defibrillator. In performing the process, emergency medical service (EMS) personnel also provide oxygen and ventilation either by the bag-valve-mask method or via more invasive advanced airway management (AAM) techniques, such as tube insertion, to keep the airway open. The ventilation methods have pros and cons in the immediate and longer term.
A team including researchers from Osaka University sought to identify patterns in the ventilation method and 1-month outcome after survival. To do so, they used data from more than 300,000 OHCA cases in the large-scale All-Japan Utstein Registry of the Fire and Disaster Management Agency (of Japan). Key in their work was tracing the correlation of electrocardiographic (ECG) rhythm and ventilation method, and the outcomes these combinations yielded. They reported their findings in The BMJ.
While AAM has been proven effective at protecting the airway during cardiac arrest treatment, many studies found it led to worse outcomes after survival. Its use compared with bag-valve-mask is controversial. The researchers sought to shed light on the debate.
“We noted that outcomes differed based on patients’ first-documented ECG rhythm,” says study co-author Sho Komukai. “We found shockable patients did not have improved 1-month outcomes after AAM. However, non-shockable patients treated with AAM showed better outcomes.”
A shockable rhythm indicates receptivity to defibrillation, while a non-shockable rhythm is treated with only CPR, often accompanied by intravenous adrenaline. Favorable outcomes include recovering the neurological functioning and early hospital discharge, whereas unfavorable outcomes include function loss and death.
The findings were made possible by the researchers’ use of an advanced statistical technique called time-dependent propensity-score sequential-matching analysis. This method accounts for the timing of AAM administration, and offsets bias from patients undergoing longer resuscitation and receiving more interventions. The result was a more accurate portrait of AAM’s outcomes, and the positive connection with AAM in non-shockable patients.
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