Effect of Xenon and Therapeutic Hypothermia, on the Brain and on Neurological Outcome Following Brain Ischemia in Cardiac Arrest Patients (Xe-hypotheca)

If cardiac resuscitation is successful, the state-of-the-art management is to actively cool these patients into a state of moderate hypothermia (32-34º C) for 24 hours in an intensive care unit. Guidelines regarding the use of hypothermia following witnessed cardiac arrest have been formally adopted by the European Resuscitation Council as well as the American Heart Association. Therapeutic hypothermia provides a significant but moderate improvement in these patients. Thus, strategies designed to increase the efficacy of therapeutic hypothermia are needed.

Preclinical animal studies have now demonstrated a remarkable neuroprotective interaction with hypothermia in a synergistic manner. The data suggest that xenon's neuroprotective effect can be triggered with subanesthetic concentrations in humans when combined with modest hypothermia.

The aim of this study is to explore whether xenon is neuroprotective in humans. We also explore whether xenon in combination with standard hypothermia treatment has better neuroprotective effect than can be achieved with the hypothermia treatment alone in the patients who have experienced global ischemic brain injury after out-of-hospital cardiac arrest (OHCA).

Hundred-and- ten patients who have experienced ventricular fibrillation or non-perfusive ventricular tachycardia as initial cardiac rhythm will be enrolled and they will be randomized into two treatment groups: 1) standard hypothermia treatment for 24 hours, 2) xenon inhalation combined with standard hypothermia treatment for 24 hours.

Sophisticated brain imaging techniques will be performed before intervention (i.e. standard CT scan), within 24 hours after intervention (i.e. positron emission tomography), and on day 3 and on day 10 after cardiac arrest (i.e. various proton magnetic resonance imaging techniques) to identify ischemic burden, injured tissue and deranged energy metabolism in the brain.

Our objective is to show a significant reduction in the degree of severity of the ischemic brain injury in the hypothermia+Xenon group as compared with the hypothermia group.