Therapeutic strategies in managing cardiac arrest

Updated resuscitation guidelines emphasize the need for minimally interrupted high quality chest compressions as a prerequisite for successful resuscitation outcome.
Resuscitation involves the integration of complex systems and the interdisciplinary coordination of multispecialty emergency and critical care providers.
The immediate period following return of spontaneous circulation (ROSC) is crucial and is dominated by the presence of two critical goals- identification of pathophysiological cause, and the assessment and initiation of time- dependent interventions, directed at preventing recurrent arrest, and improving immediate and long- term outcome.
There is no vasopressor or anti-arrhythmic agent whose use is associated with improved outcome at discharge. In-hospital resuscitation should focus on the provision of high quality chest compressions and the search for immediate treatable precipitants of the arrest in those patients who achieve ROSC.
A systematic checklist may aid in the systematic evaluation of patients following ROSC.

Management after resuscitation from cardiac arrest

Following return of spontaneous circulation, the quality of the treatment provided in the post-arrest period influences outcome.
Most patients resuscitated after a prolonged period of cardiac arrest will develop the post-cardiac arrest syndrome.
All survivors of out-of-hospital cardiac arrest should be considered for urgent coronary angiography unless the cause of cardiac arrest was clearly non-cardiac or continued treatment is considered futile.
Several interventions may impact on neurological out-come, the most significant of these is targeted temperature management.
In patients remaining comatose after resuscitation from cardiac arrest, prediction of the final outcome in the first few days may be unreliable. Prognostication should normally be delayed until at least 3 days after return to normothermia and should involve more than one than one mode (e.g. clinical examination combined with another investigation).

Key components of the post-cardiac arrest syndrome.

Post- cardiac arrest brain injury- this manifests as coma and seizures.
Post- cardiac-arrest myocardial dysfunction –this can be severe and usually recovers after 48 hours.
Systemic ischemia/reperfusion response –tissue reperfusion can cause programmed cell death (apoptosis) effecting all organ systems.
Persisting precipitating pathology-coronary artery disease is the commonest precipitating cause after OHCA