Georg Trummer1,2, Christoph Benk1,2, Friedhelm Beyersdorf1,2. 1. Department of Cardiovascular Surgery, Heart Center University Freiburg, Freiburg, Germany. 2. Faculty of Medicine, University of Freiburg, Freiburg, Germany.
Abstract
BACKGROUND: Sudden circulatory arrest (CA) requiring cardiopulmonary resuscitation (CPR) has for decades been associated with high mortality and frequent neurological sequelae in the rarer survivors. The high mortality and morbidity are potentially related to a severe and global ischemia/reperfusion injury (IRI) of the whole body, especially the brain. Consequently, strategies to counteract this severe IRI may improve survival and neurological recovery of affected patients. METHODS: Based on the target to limit IRI in single organs, suitable parameters and methods were composed to form a global treatment concept, the CARL method (controlled automated reperfusion of the whole body). The concept centers on extracorporeal circulation, enhanced with readily available online monitoring. It allows for targeted adaption of different parameters (i.e., blood pressure and flow, temperature, oxygen content, electrolytes) during the reperfusion process, in the sense of a controlled reperfusion. Parameters and elements of the CARL method were extensively tested in a chronic animal model. An appropriate medical device, the system configuration "CIRD 1.0" (Controlled Integrated Resuscitation Device) is approved to be applied to patients. RESULTS: A set of parameters that support a limitation of a global IRI have been identified in over 250 animal experiments. Their specific targets and surveillance using adequate monitoring features are described. Using the CIRD in a single center, 14 patients with witnessed, but extremely prolonged CPR (51-120 minutes) have been treated with CARL. The outcome of these patients was favorable, with 7 of 14 patients regaining full consciousness and 6 of 7 allocated to Cerebral Performance Class (CPC) "1". CONCLUSIONS: CA followed by CPR is associated with a very high mortality and frequent neurological sequelae. Limiting the occurring severe and global IRI may be a key to an improved survival and neurological recovery. Therefore, the therapeutic approach of CARL, which stands for a personalized, comprehensive therapy based on a readily available set of monitoring data and diagnostic findings, has been developed. First experience in patients indicates beneficial effects that call for further studies in the field of CARL.
BACKGROUND: Sudden circulatory arrest (CA) requiring cardiopulmonary resuscitation (CPR) has for decades been associated with high mortality and frequent neurological sequelae in the rarer survivors. The high mortality and morbidity are potentially related to a severe and global ischemia/reperfusion injury (IRI) of the whole body, especially the brain. Consequently, strategies to counteract this severe IRI may improve survival and neurological recovery of affected patients. METHODS: Based on the target to limit IRI in single organs, suitable parameters and methods were composed to form a global treatment concept, the CARL method (controlled automated reperfusion of the whole body). The concept centers on extracorporeal circulation, enhanced with readily available online monitoring. It allows for targeted adaption of different parameters (i.e., blood pressure and flow, temperature, oxygen content, electrolytes) during the reperfusion process, in the sense of a controlled reperfusion. Parameters and elements of the CARL method were extensively tested in a chronic animal model. An appropriate medical device, the system configuration "CIRD 1.0" (Controlled Integrated Resuscitation Device) is approved to be applied to patients. RESULTS: A set of parameters that support a limitation of a global IRI have been identified in over 250 animal experiments. Their specific targets and surveillance using adequate monitoring features are described. Using the CIRD in a single center, 14 patients with witnessed, but extremely prolonged CPR (51-120 minutes) have been treated with CARL. The outcome of these patients was favorable, with 7 of 14 patients regaining full consciousness and 6 of 7 allocated to Cerebral Performance Class (CPC) "1". CONCLUSIONS: CA followed by CPR is associated with a very high mortality and frequent neurological sequelae. Limiting the occurring severe and global IRI may be a key to an improved survival and neurological recovery. Therefore, the therapeutic approach of CARL, which stands for a personalized, comprehensive therapy based on a readily available set of monitoring data and diagnostic findings, has been developed. First experience in patients indicates beneficial effects that call for further studies in the field of CARL.
Entities:
Keywords:
Cardiac arrest; advanced life support; cardiopulmonary resuscitation (CPR); controlled automated reperfusion of the whole body (CARL); ischemia reperfusion injury
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