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Clinical Trial Summary

This is a prospective, observational study to investigate molecular mechanisms mediating the systemic inflammatory process, and changes to metabolism, and their impact on brain injury, survival, and functional outcomes after cardiac arrest. Investigators have shown that cardiac arrest induces changes in the numbers and properties of circulating immune cells, shifting the balance towards a pro-inflammatory phenotype and there is increased interest in the inflammatory pathways and the signaling mechanisms through which they are modulated. Participants will undergo blood sampling during 7 days following cardiac arrest, and analyses performed. Patient characteristics, clinical circumstances, and outcomes will be recorded and their associations with these inflammatory pathways characterized.


Clinical Trial Description

Preliminary evidence indicates that inter-individual variables such as immune cell activity and the production of pro-inflammatory factors may differentiate patients with the highest risk of poor neurological outcome, and may reveal novel therapeutic approaches based on promoting molecular pathways of inflammation-resolution and recovery to reduce the severity of hypoxic ischemic encephalopathy (HIE). Additionally, there are intrinsic, modifiable metabolic factors, such as the presence and metabolic activity of brown adipose tissue (BAT) that may modulate injury and recovery. Comparative analysis showed that cardiac arrest survivors have more CD73+ lymphocytes compared to non-survivors. CD73 is the key enzyme in the generation of anti-inflammatory and immunosuppressive adenosine. We have also identified novel populations of neutrophils (CD14posCD16low and DEspR+) that had amplified response to inflammatory stimuli. The investigators hypothesize that individual variability in the expression and signaling profiles of white blood cells (lymphocytes, neutrophils, monocytes and macrophages) following resuscitation affects inflammation and is independently associated with neurological outcome. To test this hypothesis, investigators will determine levels of various immune cell populations at different time points in peripheral blood of patients. Characterization of blood circulating factors, clinical phenotypes, and neurological outcomes after cardiac arrest is a second aim of this project, with a focus on understanding the heterogeneity of cellular and humoral immune responses and how they relate to different clinical phenotypes of post-resuscitation syndrome. PCAS metabolism: IT is known that hyperglycemia is an independent risk factor for poor outcome after cardiac arrest, but it is not known if modification of hyperglycemia reduces this risk. Published studies have not demonstrated benefit with intensive insulin therapy. Our preliminary data suggest correlation between brown adipose tissue activity and good outcome. We have postulated that BAT may be activated by therapeutic hypothermia and may act as a glucose sink reducing the oxidative stress caused by hyperglycemia, and secondarily reducing injury to the brain, heart, and other organs. In these studies we will also investigate other actionable targets for new therapies. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02664831
Study type Observational
Source MaineHealth
Contact David B Seder, MD
Phone 207-662-2179
Email david.seder@mainehealth.org
Status Recruiting
Phase
Start date January 2016
Completion date March 20, 2026

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