Lipidomic signatures align with inflammatory patterns and outcomes in critical illness
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Published:2022-11-10
Issue:1
Volume:13
Page:
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ISSN:2041-1723
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Container-title:Nature Communications
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language:en
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Short-container-title:Nat Commun
Author:
Wu JunruORCID, Cyr AnthonyORCID, Gruen Danielle S.ORCID, Lovelace Tyler C., Benos Panayiotis V.ORCID, Das JishnuORCID, Kar Upendra K., Chen Tianmeng, Guyette Francis X., Yazer Mark H., Daley Brian J.ORCID, Miller Richard S., Harbrecht Brian G., Claridge Jeffrey A., Phelan Herb A., Zuckerbraun Brian S., Neal Matthew D.ORCID, Johansson Pär I., Stensballe Jakob, Namas Rami A., Vodovotz YoramORCID, Sperry Jason L., Billiar Timothy R.ORCID, Zenati Mazen S., Brown Joshua B., Triulzi Darrell J., Young Barbara J. Early, Adams Peter W., Alarcon Louis H., Callaway Clifton W., Forsythe Raquel M., Yealy Donald M., Peitzman Andrew B., Buck Meghan L., Ryman Ashley M., Gimbel Elizabeth A., Gilchrist Erin G., Buhay Meghan, Chang Chung-Chou H., Talisa Victor B., Xu Tianyuan, Kalloway Kyle, Yates Andrew, Rawn Susan, Jenkins Judith M., Trachtenberg Laura S., Eden Randi K., Fraifogl Joanne, Bates Craig, Howard Christina, Stebbins Cari, Witham William R., McNeill Cathy, Putnam A. Tyler., Snyder Amy, Ropp Jason, Duane Therese M., Caliman Celeste, Beamon Mieshia,
Abstract
AbstractAlterations in lipid metabolism have the potential to be markers as well as drivers of pathobiology of acute critical illness. Here, we took advantage of the temporal precision offered by trauma as a common cause of critical illness to identify the dynamic patterns in the circulating lipidome in critically ill humans. The major findings include an early loss of all classes of circulating lipids followed by a delayed and selective lipogenesis in patients destined to remain critically ill. The previously reported survival benefit of early thawed plasma administration was associated with preserved lipid levels that related to favorable changes in coagulation and inflammation biomarkers in causal modelling. Phosphatidylethanolamines (PE) were elevated in patients with persistent critical illness and PE levels were prognostic for worse outcomes not only in trauma but also severe COVID-19 patients. Here we show selective rise in systemic PE as a common prognostic feature of critical illness.
Funder
U.S. Department of Health & Human Services | NIH | National Institute of General Medical Sciences
Publisher
Springer Science and Business Media LLC
Subject
General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary
Reference60 articles.
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