Damage- and pathogen-associated molecular patterns play differential roles in late mortality after critical illness.
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2019-08
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Abstract
Multiple organ failure (MOF) is the leading cause of late mortality and morbidity in patients who are admitted to intensive care units (ICUs). However, there is an epidemiologic discrepancy in the mechanism of underlying immunologic derangement dependent on etiology between sepsis and trauma patients in MOF. We hypothesized that damage-associated molecular patterns (DAMPs) and pathogen-associated molecular patterns (PAMPs), while both involved in the development of MOF, contribute differently to the systemic innate immune derangement and coagulopathic changes. We found that DAMPs not only produce weaker innate immune activation than counterpart PAMPs, but also induce less TLR signal desensitization, contribute to less innate immune cell death, and propagate more robust systemic coagulopathic effects than PAMPs. This differential contribution to MOF provides further insight into the contributing factors to late mortality in critically ill trauma and sepsis patients. These findings will help to better prognosticate patients at risk of MOF and may provide future therapeutic molecular targets in this disease process.
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Eppensteiner, John, Jean Kwun, Uwe Scheuermann, Andrew Barbas, Alexander T Limkakeng, Maggie Kuchibhatla, Eric A Elster, Allan D Kirk, et al. (2019). Damage- and pathogen-associated molecular patterns play differential roles in late mortality after critical illness. JCI insight, 4(16). p. 127925. 10.1172/jci.insight.127925 Retrieved from https://hdl.handle.net/10161/31999.
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Scholars@Duke
John C Eppensteiner
John Eppensteiner, MD is an Assistant Professor in the Department of Emergency Medicine. He completed his emergency medicine training here at Duke University during which time he served as chief resident. He also completed the first-of-its-kind integrated research fellowship year which is now an established pathway in the Duke Emergency Medicine Residency Program. His research interests are primarily focused on the immune response to trauma and early inflammatory biomarkers used in predictive modeling after traumatic injury. Dr. Eppensteiner has also served as site PI for several clinical trials enrolling patients in the Emergency Department.
Jean Kwun
Dr. Kwun is currently the Director of Transplant Basic Science Research at the Duke Transplant Center.
Research interests include humoral tolerance to organ transplants in animal model and humans, developing a clinically relevant animal model to study the mechanisms of antibody-mediated rejection (AMR), and establishing a conceptual basis that will translate into therapeutic intervention of AMR.
Andrew Serghios Barbas
Alexander Tan Limkakeng
Dr. Alexander T. Limkakeng, Jr., MD, MHSc, FACEP is a Professor of Emergency Medicine, Vice Chair of Clinical Research, Director of the Acute Care Research Team, and Director of the Resident Research Fellowship for the Department of Emergency Medicine in the Duke University School of Medicine in Durham, North Carolina.
Dr. Limkakeng has served as chair of the American College of Emergency Physicians (ACEP) Research Committee, and been the Course Director of the ACEP Research Forum from 2016-2018, the largest emergency medical research platform in the nation. He is also the Assistant Director of ACEP’s Emergency Medicine Basic Research Skills course. He was elected to the Nominating Committee of the Society of Academic Emergency Medicine.
As a researcher, Dr. Limkakeng has led multiple clinical trials and interdepartmental sponsored projects and is author on over 100 peer-reviewed manuscripts. These include studies in emergency conditions such as COVID-19, traumatic brain injury, hypertension, heart failure, thrombosis, stroke, envenomations, and septic shock. His research has been funded by grants and contracts totaling over $9 million dollars. He has lectured internationally on acute coronary syndrome, responsible conduct of research, design of clinical trials, and precision medicine in emergency care. He has led Duke’s involvement in NIH-funded research networks and in industry-funded work that led to FDA approval for multiple high-sensitivity cardiac troponin assays and point-of-care COVID-19 diagnostic tests. He has servesd as Co-PI for the Duke U24 Hub in the NIH Early Phase Pain Investigation Clinical Network (EPPIC-Net) (1U24NS114416) and now serves as a co-PI on the Duke U24 Hub award (1U24NS129498) in the NIH Strategies to Innovate Emergency Care Clinical Trials (SIREN) Network and in the NIH NINDS Strokenet network (1U24NS135250)
His personal research interest is finding new ways to diagnose acute coronary syndrome. In particular, he is interested in novel biomarkers and precision medicine approaches to this problem. The common element throughout this work is a focus on time-sensitive health conditions.
Maragatha Kuchibhatla
Statistical research methodology, analysis of repeated measurements, latent growth curve models, latent class growth models, classification and regression trees,
designing clinical trials, designing clinical trials in psychiatry -- both treatment and non-treatment
trials in various comorbid populations.
Allan Douglas Kirk
I am a surgeon with interest in immune management of transplant recipients. I am particularly interested in therapies that influence T cell costimulation pathways and adjuvant therapies that facilitate costimulation blockade to prevent the rejection of transplanted organs without undue suppression of protective immunity. I am also interested in understanding how injury, such as that occurring during trauma or in elective surgery, influences immune responses and subsequent healing following injury.
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