Metabolomics and Precision Medicine in Trauma: The State of the Field

Sudha P. Jayaraman; Rahul J. Anand; Jonathan H. Deantonio; Martin Mangino; Michel B. Aboutanos; Vigneshwar Kasirajan; Rao R. Ivatury; Alex B. Valadka; Olena Glushakova; Ronald L. Hayes; Lorin M. Bachmann; Gretchen M. Brophy; Daniel Contaifer; Urszula O. Warncke; Donald F. Brophy; Dayanjan S. Wijesinghe

doi:10.1097/SHK.0000000000001093

Metabolomics and Precision Medicine in Trauma: The State of the Field

Sudha P. Jayaraman, Rahul J. Anand, Jonathan H. Deantonio, Martin Mangino, Michel B. Aboutanos, Vigneshwar Kasirajan, Rao R. Ivatury, Alex B. Valadka, Olena Glushakova, Ronald L. Hayes, Lorin M. Bachmann, Gretchen M. Brophy, Daniel Contaifer, Urszula O. Warncke, Donald F. Brophy, Dayanjan S. Wijesinghe

Research output: Contribution to journal › Review article › peer-review

17 Scopus citations

Abstract

Trauma is a major problem in the United States. Mortality from trauma is the number one cause of death under the age of 45 in the United States and is the third leading cause of death for all age groups. There are approximately 200,000 deaths per year due to trauma in the United States at a cost of over $671 billion in combined healthcare costs and lost productivity. Unsurprisingly, trauma accounts for approximately 30% of all life-years lost in the United States. Due to immense development of trauma systems, a large majority of trauma patients survive the injury, but then go on to die from complications arising from the injury. These complications are marked by early and significant metabolic changes accompanied by inflammatory responses that lead to progressive organ failure and, ultimately, death. Early resuscitative and surgical interventions followed by close monitoring to identify and rescue treatment failures are key to successful outcomes. Currently, the adequacy of resuscitation is measured using vital signs, noninvasive methods such as bedside echocardiography or stroke volume variation, and other laboratory endpoints of resuscitation, such as lactate and base deficit. However, these methods may be too crude to understand cellular and subcellular changes that may be occurring in trauma patients. Better diagnostic and therapeutic markers are needed to assess the adequacy of interventions and monitor responses at a cellular and subcellular level and inform clinical decision-making before complications are clinically apparent. The developing field of metabolomics holds great promise in the identification and application of biochemical markers toward the clinical decision-making process.

Original language	English (US)
Pages (from-to)	5-13
Number of pages	9
Journal	Shock
Volume	50
Issue number	1
DOIs	https://doi.org/10.1097/SHK.0000000000001093
State	Published - Jul 1 2018
Externally published	Yes

Keywords

Injury
metabolomics
outcomes
translational
trauma

ASJC Scopus subject areas

Emergency Medicine
Critical Care and Intensive Care Medicine

Access to Document

10.1097/SHK.0000000000001093

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Jayaraman, S. P., Anand, R. J., Deantonio, J. H., Mangino, M., Aboutanos, M. B., Kasirajan, V., Ivatury, R. R., Valadka, A. B., Glushakova, O., Hayes, R. L., Bachmann, L. M., Brophy, G. M., Contaifer, D., Warncke, U. O., Brophy, D. F., & Wijesinghe, D. S. (2018). Metabolomics and Precision Medicine in Trauma: The State of the Field. Shock, 50(1), 5-13. https://doi.org/10.1097/SHK.0000000000001093

Jayaraman, SP, Anand, RJ, Deantonio, JH, Mangino, M, Aboutanos, MB, Kasirajan, V, Ivatury, RR, Valadka, AB, Glushakova, O, Hayes, RL, Bachmann, LM, Brophy, GM, Contaifer, D, Warncke, UO, Brophy, DF & Wijesinghe, DS 2018, 'Metabolomics and Precision Medicine in Trauma: The State of the Field', Shock, vol. 50, no. 1, pp. 5-13. https://doi.org/10.1097/SHK.0000000000001093

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title = "Metabolomics and Precision Medicine in Trauma: The State of the Field",

abstract = "Trauma is a major problem in the United States. Mortality from trauma is the number one cause of death under the age of 45 in the United States and is the third leading cause of death for all age groups. There are approximately 200,000 deaths per year due to trauma in the United States at a cost of over $671 billion in combined healthcare costs and lost productivity. Unsurprisingly, trauma accounts for approximately 30% of all life-years lost in the United States. Due to immense development of trauma systems, a large majority of trauma patients survive the injury, but then go on to die from complications arising from the injury. These complications are marked by early and significant metabolic changes accompanied by inflammatory responses that lead to progressive organ failure and, ultimately, death. Early resuscitative and surgical interventions followed by close monitoring to identify and rescue treatment failures are key to successful outcomes. Currently, the adequacy of resuscitation is measured using vital signs, noninvasive methods such as bedside echocardiography or stroke volume variation, and other laboratory endpoints of resuscitation, such as lactate and base deficit. However, these methods may be too crude to understand cellular and subcellular changes that may be occurring in trauma patients. Better diagnostic and therapeutic markers are needed to assess the adequacy of interventions and monitor responses at a cellular and subcellular level and inform clinical decision-making before complications are clinically apparent. The developing field of metabolomics holds great promise in the identification and application of biochemical markers toward the clinical decision-making process.",

keywords = "Injury, metabolomics, outcomes, translational, trauma",

author = "Jayaraman, {Sudha P.} and Anand, {Rahul J.} and Deantonio, {Jonathan H.} and Martin Mangino and Aboutanos, {Michel B.} and Vigneshwar Kasirajan and Ivatury, {Rao R.} and Valadka, {Alex B.} and Olena Glushakova and Hayes, {Ronald L.} and Bachmann, {Lorin M.} and Brophy, {Gretchen M.} and Daniel Contaifer and Warncke, {Urszula O.} and Brophy, {Donald F.} and Wijesinghe, {Dayanjan S.}",

note = "Funding Information: The Inflammation and the Host Response Large Scale Collaborative Research Program (Glue Grant) is the pre-eminent research collaborative that has led genomic and proteomics research in trauma since its inception in 2001 with support from the National Institutes of General Medical Sciences (41– 43). The investigators of this program have refined techniques to identify biomarkers that may correlate with survival (15), develop genomic score predicting clinical trajectories in trauma patients (44–46), create a method for isolating neutrophils to identify immune response to severe trauma and burn injury (47), and determine key proteins involved in acute phase response signaling, the complement system, and coagulation system pathways (48). The program has resulted in extensive knowledge and insights into the metabolic stress response to burn injuries and has outlined potential research opportunities using metabolomics, proteomics, and genomics (49,50). Funding Information: Research reported in this publication was supported by research grants from National Institutes of Health under grant numbers HD087198 (to DSW), faculty development funds from 2P60MD002256-10 (to SJ) and also received support via a Young Investigator Award from SCIEX for clinical lipidomic research (DSW). Additional funds were provided by the Clinical Center for Translational Research from VCU. Funds were also provided by CTSA UL1TR000058 from the National center for advancing translational sciences and the CCTR endowment fund of VCU (to SJ and DSW). The authors report no conflicts of interest. DOI: 10.1097/SHK.0000000000001093 Copyright {\textcopyright} 2018 by the Shock Society Publisher Copyright: {\textcopyright} 2018 by the Shock Society.",

year = "2018",

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doi = "10.1097/SHK.0000000000001093",

language = "English (US)",

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T1 - Metabolomics and Precision Medicine in Trauma

T2 - The State of the Field

AU - Jayaraman, Sudha P.

AU - Anand, Rahul J.

AU - Deantonio, Jonathan H.

AU - Mangino, Martin

AU - Aboutanos, Michel B.

AU - Kasirajan, Vigneshwar

AU - Ivatury, Rao R.

AU - Valadka, Alex B.

AU - Glushakova, Olena

AU - Hayes, Ronald L.

AU - Bachmann, Lorin M.

AU - Brophy, Gretchen M.

AU - Contaifer, Daniel

AU - Warncke, Urszula O.

AU - Brophy, Donald F.

AU - Wijesinghe, Dayanjan S.

N1 - Funding Information: The Inflammation and the Host Response Large Scale Collaborative Research Program (Glue Grant) is the pre-eminent research collaborative that has led genomic and proteomics research in trauma since its inception in 2001 with support from the National Institutes of General Medical Sciences (41– 43). The investigators of this program have refined techniques to identify biomarkers that may correlate with survival (15), develop genomic score predicting clinical trajectories in trauma patients (44–46), create a method for isolating neutrophils to identify immune response to severe trauma and burn injury (47), and determine key proteins involved in acute phase response signaling, the complement system, and coagulation system pathways (48). The program has resulted in extensive knowledge and insights into the metabolic stress response to burn injuries and has outlined potential research opportunities using metabolomics, proteomics, and genomics (49,50). Funding Information: Research reported in this publication was supported by research grants from National Institutes of Health under grant numbers HD087198 (to DSW), faculty development funds from 2P60MD002256-10 (to SJ) and also received support via a Young Investigator Award from SCIEX for clinical lipidomic research (DSW). Additional funds were provided by the Clinical Center for Translational Research from VCU. Funds were also provided by CTSA UL1TR000058 from the National center for advancing translational sciences and the CCTR endowment fund of VCU (to SJ and DSW). The authors report no conflicts of interest. DOI: 10.1097/SHK.0000000000001093 Copyright © 2018 by the Shock Society Publisher Copyright: © 2018 by the Shock Society.

PY - 2018/7/1

Y1 - 2018/7/1

N2 - Trauma is a major problem in the United States. Mortality from trauma is the number one cause of death under the age of 45 in the United States and is the third leading cause of death for all age groups. There are approximately 200,000 deaths per year due to trauma in the United States at a cost of over $671 billion in combined healthcare costs and lost productivity. Unsurprisingly, trauma accounts for approximately 30% of all life-years lost in the United States. Due to immense development of trauma systems, a large majority of trauma patients survive the injury, but then go on to die from complications arising from the injury. These complications are marked by early and significant metabolic changes accompanied by inflammatory responses that lead to progressive organ failure and, ultimately, death. Early resuscitative and surgical interventions followed by close monitoring to identify and rescue treatment failures are key to successful outcomes. Currently, the adequacy of resuscitation is measured using vital signs, noninvasive methods such as bedside echocardiography or stroke volume variation, and other laboratory endpoints of resuscitation, such as lactate and base deficit. However, these methods may be too crude to understand cellular and subcellular changes that may be occurring in trauma patients. Better diagnostic and therapeutic markers are needed to assess the adequacy of interventions and monitor responses at a cellular and subcellular level and inform clinical decision-making before complications are clinically apparent. The developing field of metabolomics holds great promise in the identification and application of biochemical markers toward the clinical decision-making process.

AB - Trauma is a major problem in the United States. Mortality from trauma is the number one cause of death under the age of 45 in the United States and is the third leading cause of death for all age groups. There are approximately 200,000 deaths per year due to trauma in the United States at a cost of over $671 billion in combined healthcare costs and lost productivity. Unsurprisingly, trauma accounts for approximately 30% of all life-years lost in the United States. Due to immense development of trauma systems, a large majority of trauma patients survive the injury, but then go on to die from complications arising from the injury. These complications are marked by early and significant metabolic changes accompanied by inflammatory responses that lead to progressive organ failure and, ultimately, death. Early resuscitative and surgical interventions followed by close monitoring to identify and rescue treatment failures are key to successful outcomes. Currently, the adequacy of resuscitation is measured using vital signs, noninvasive methods such as bedside echocardiography or stroke volume variation, and other laboratory endpoints of resuscitation, such as lactate and base deficit. However, these methods may be too crude to understand cellular and subcellular changes that may be occurring in trauma patients. Better diagnostic and therapeutic markers are needed to assess the adequacy of interventions and monitor responses at a cellular and subcellular level and inform clinical decision-making before complications are clinically apparent. The developing field of metabolomics holds great promise in the identification and application of biochemical markers toward the clinical decision-making process.

KW - Injury

KW - metabolomics

KW - outcomes

KW - translational

KW - trauma

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Metabolomics and Precision Medicine in Trauma: The State of the Field

Abstract

Keywords

ASJC Scopus subject areas

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