1 results
3 - Global cellular ischemia/reperfusion during cardiac arrest: critical stress responses and the postresuscitation syndrome
- from Part II - Basic science
-
- By Kimm Hamann, Department of Emergency Medicine, University of Chicago, USA, Dave Beiser, Department of Emergency Medicine, University of Chicago, USA, Terry L. Vanden Hoek, Department of Emergency Medicine, University of Chicago, USA
- Edited by Norman A. Paradis, University of Colorado, Denver, Henry R. Halperin, The Johns Hopkins University School of Medicine, Karl B. Kern, University of Arizona, Volker Wenzel, Douglas A. Chamberlain, Cardiff University
-
- Book:
- Cardiac Arrest
- Published online:
- 06 January 2010
- Print publication:
- 18 October 2007, pp 51-69
-
- Chapter
- Export citation
-
Summary
Cardiac arrest is the most lethal disease of ischemia/reperfusion (I/R) with only 5%–7% of out-of-hospital cardiac arrest (OHCA) victims surviving to hospital discharge. Why a patient passes from full human function to “death” within minutes to hours, often despite an initially successful resuscitation and restoration of normal vital signs, is unclear. Certainly compared with the focal tissue ischemia of stroke or myocardial infarction the ischemic interval of cardiac arrest is measured in minutes rather than hours; yet, the establishment of reperfusion following cardiac arrest resuscitation, unlike that following focal ischemia, cannot be considered definitive therapy. Indeed, out of every 100 cardiac arrest victims, about 30 will achieve return of spontaneous circulation (ROSC) but only 5 survive the postresuscitation period to hospital discharge. Thus, postresuscitation deaths contribute significantly to overall out-of-hospital cardiac arrest mortality as most patients who are initially “saved” die during a lethal post-resuscitation syndrome often during the first 24–72 hours, characterized by early cardiovascular collapse with multi-organ failure and subsequent failure of central nervous system recovery. If we could successfully treat or prevent reperfusion injury it would result in an estimated 6–10 fold improvement in survival following cardiac arrest. Efforts to improve post-resuscitation care are well justified since 75% of patients who are discharged alive return to their communities with intact neurological function and a good quality of life.
The extent of such post-resuscitation injury is likely to be associated with the time of ischemia. Weisfeldt and Becker proposed a “three-phase time-sensitive” model of cardiac arrest highlighting the need for different treatments at specific ischemia times of cardiac arrest.
![](/core/cambridge-core/public/images/lazy-loader.gif)