Scaled traumatic brain injury results in unique metabolomic signatures between gray matter, white matter, and serum in a piglet model

Traumatic brain injury (TBI) is a leading cause of death and long-term disability in the United States. The heterogeneity of the disease coupled with the lack of comprehensive, standardized scales to adequately characterize multiple types of TBI remain to be major challenges facing effective therape...

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Veröffentlicht in:	PloS one 2018-10, Vol.13 (10), p.e0206481-e0206481
Hauptverfasser:	Baker, Emily W, Henderson, W Matthew, Kinder, Holly A, Hutcheson, Jessica M, Platt, Simon R, West, Franklin D
Format:	Artikel
Sprache:	eng
Schlagworte:	Anatomy Animals Biology and Life Sciences Biomarkers Brain Brain - metabolism Brain architecture Brain damage Brain Injuries, Traumatic - blood Brain Injuries, Traumatic - metabolism Brain research Cortex Discriminant analysis Gene expression Gray Matter - metabolism Head injuries Heterogeneity Impact velocity Injuries Injury analysis Laboratory animals Mass spectrometry Medicine and Health Sciences Mental depression Metabolism Metabolites Metabolome Metabolomics Models, Animal Neurosciences R&D Research & development Scientific imaging Serum Signatures Stroke Substantia alba Substantia grisea Swine System effectiveness Therapeutic applications Trauma Traumatic brain injury White Matter - metabolism
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description	Traumatic brain injury (TBI) is a leading cause of death and long-term disability in the United States. The heterogeneity of the disease coupled with the lack of comprehensive, standardized scales to adequately characterize multiple types of TBI remain to be major challenges facing effective therapeutic development. A systems level approach to TBI diagnosis through the use of metabolomics could lead to a better understanding of cellular changes post-TBI and potential therapeutic targets. In the current study, we utilize a GC-MS untargeted metabolomics approach to demonstrate altered metabolism in response to TBI in a translational pig model, which possesses many neuroanatomical and pathophysiologic similarities to humans. TBI was produced by controlled cortical impact (CCI) in Landrace piglets with impact velocity and depth of depression set to 2m/s;6mm, 4m/s;6mm, 4m/s;12mm, or 4m/s;15mm resulting in graded neural injury. Serum samples were collected pre-TBI, 24 hours post-TBI, and 7 days post-TBI. Partial least squares discriminant analysis (PLS-DA) revealed that each impact parameter uniquely influenced the metabolomic profile after TBI, and gray and white matter responds differently to TBI on the biochemical level with evidence of white matter displaying greater metabolic change. Furthermore, pathway analysis revealed unique metabolic signatures that were dependent on injury severity and brain tissue type. Metabolomic signatures were also detected in serum samples which potentially captures both time after injury and injury severity. These findings provide a platform for the development of a more accurate TBI classification scale based unique metabolomic signatures.
doi_str_mv	10.1371/journal.pone.0206481
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The heterogeneity of the disease coupled with the lack of comprehensive, standardized scales to adequately characterize multiple types of TBI remain to be major challenges facing effective therapeutic development. A systems level approach to TBI diagnosis through the use of metabolomics could lead to a better understanding of cellular changes post-TBI and potential therapeutic targets. In the current study, we utilize a GC-MS untargeted metabolomics approach to demonstrate altered metabolism in response to TBI in a translational pig model, which possesses many neuroanatomical and pathophysiologic similarities to humans. TBI was produced by controlled cortical impact (CCI) in Landrace piglets with impact velocity and depth of depression set to 2m/s;6mm, 4m/s;6mm, 4m/s;12mm, or 4m/s;15mm resulting in graded neural injury. Serum samples were collected pre-TBI, 24 hours post-TBI, and 7 days post-TBI. Partial least squares discriminant analysis (PLS-DA) revealed that each impact parameter uniquely influenced the metabolomic profile after TBI, and gray and white matter responds differently to TBI on the biochemical level with evidence of white matter displaying greater metabolic change. Furthermore, pathway analysis revealed unique metabolic signatures that were dependent on injury severity and brain tissue type. Metabolomic signatures were also detected in serum samples which potentially captures both time after injury and injury severity. These findings provide a platform for the development of a more accurate TBI classification scale based unique metabolomic signatures.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>30379914</pmid><doi>10.1371/journal.pone.0206481</doi><tpages>e0206481</tpages><oa>free_for_read</oa></addata></record>
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subjects	Anatomy Animals Biology and Life Sciences Biomarkers Brain Brain - metabolism Brain architecture Brain damage Brain Injuries, Traumatic - blood Brain Injuries, Traumatic - metabolism Brain research Cortex Discriminant analysis Gene expression Gray Matter - metabolism Head injuries Heterogeneity Impact velocity Injuries Injury analysis Laboratory animals Mass spectrometry Medicine and Health Sciences Mental depression Metabolism Metabolites Metabolome Metabolomics Models, Animal Neurosciences R&D Research & development Scientific imaging Serum Signatures Stroke Substantia alba Substantia grisea Swine System effectiveness Therapeutic applications Trauma Traumatic brain injury White Matter - metabolism
title	Scaled traumatic brain injury results in unique metabolomic signatures between gray matter, white matter, and serum in a piglet model
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