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Journal Article

Citation

Kutcher ME, Forsythe RM, Tisherman SA. Int. J. Surg. (London, England) 2015; 33(Pt B): 209-212.

Affiliation

Department of Surgery, RA Cowley Shock Trauma Center, University of Maryland School of Medicine, Baltimore, MD, USA.

Copyright

(Copyright © 2015, Elsevier Publishing)

DOI

10.1016/j.ijsu.2015.10.014

PMID

26497780

Abstract

The advent of cardiopulmonary resuscitation (CPR) revolutionized the care of patients with cardiac arrest, now allowing survival of up to 30% after out-of-hospital arrest due to arrhythmia; however, outcomes for cardiac arrest after trauma remain dismal, with less than 10% survival despite the most aggressive modern resuscitation techniques. The short time interval between cardiac arrest and brain ischemia, the reduced efficacy of CPR in the patient with profound hypovolemia due to hemorrhage, and the speed of exsanguination from major vascular injury all conspire to limit the effectiveness of standard CPR in the critically injured patient. Beginning in the 1980s, researchers began to harness the effects of profound hypothermia in order to extend the window of survivability after traumatic arrest, allowing the critical time needed to obtain surgical hemostasis in otherwise lethal exsanguinating injuries. These studies have culminated in the emergency preservation and resuscitation (EPR) of the trauma patient. Rapid central arterial access is obtained and profound (<10 °C) hypothermia induced with aortic infusion of cold saline; during this window of up to 1 h, damage control surgical techniques are applied to control hemorrhage and repair injuries, followed by controlled rewarming and reperfusion using cardiopulmonary bypass. In this review, we trace these techniques from their early theoretical development, through refinement in clinically relevant animal models, and into their present application in a currently-enrolling human clinical trial of EPR for cardiac arrest from trauma (EPR-CAT), as well as examining current topics, ongoing challenges, and future directions for emergency preservation and resuscitation research.


Language: en

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