BACKGROUND: Following trauma, persistent inflammation, immunosuppression, and catabolism may characterize delayed recovery or failure to recover. Understanding the metabolic response associated with these adverse outcomes may facilitate earlier identification and intervention. We characterized the metabolic profiles of trauma victims who died or developed chronic critical illness (CCI) and hypothesized that differences would be evident within 1-week postinjury. METHODS: Venous blood samples from trauma victims with shock who survived at least 7 days were analyzed using mass spectrometry. Subjects who died or developed CCI (intensive care unit length of stay of ≥14 days with persistent organ dysfunction) were compared with subjects who recovered rapidly (intensive care unit length of stay, ≤7 days) and uninjured controls. We used partial least squares discriminant analysis, t tests, linear mixed effects regression, and pathway enrichment analyses to make broad comparisons and identify differences in metabolite concentrations and pathways. RESULTS: We identified 27 patients who died or developed CCI and 33 who recovered rapidly. Subjects were predominantly male (65%) with a median age of 53 years and Injury Severity Score of 36. Healthy controls (n = 48) had similar age and sex distributions. Overall, from the 163 metabolites detected in the samples, 56 metabolites and 21 pathways differed between injury outcome groups, and partial least squares discriminant analysis models distinguished injury outcome groups as early as 1-day postinjury. Differences were observed in tryptophan, phenylalanine, and tyrosine metabolism; metabolites associated with oxidative stress via methionine metabolism; inflammatory mediators including kynurenine, arachidonate, and glucuronic acid; and products of the gut microbiome including indole-3-propionate. CONCLUSIONS: The metabolic profiles in subjects who ultimately die or develop CCI differ from those who have recovered. In particular, we have identified differences in markers of inflammation, oxidative stress, amino acid metabolism, and alterations in the gut microbiome. Targeted metabolomics has the potential to identify important metabolic changes postinjury to improve early diagnosis and targeted intervention. LEVEL OF EVIDENCE: Prognostic/epidemiologic, level III.
BACKGROUND: Following trauma, persistent inflammation, immunosuppression, and catabolism may characterize delayed recovery or failure to recover. Understanding the metabolic response associated with these adverse outcomes may facilitate earlier identification and intervention. We characterized the metabolic profiles of trauma victims who died or developed chronic critical illness (CCI) and hypothesized that differences would be evident within 1-week postinjury. METHODS: Venous blood samples from trauma victims with shock who survived at least 7 days were analyzed using mass spectrometry. Subjects who died or developed CCI (intensive care unit length of stay of ≥14 days with persistent organ dysfunction) were compared with subjects who recovered rapidly (intensive care unit length of stay, ≤7 days) and uninjured controls. We used partial least squares discriminant analysis, t tests, linear mixed effects regression, and pathway enrichment analyses to make broad comparisons and identify differences in metabolite concentrations and pathways. RESULTS: We identified 27 patients who died or developed CCI and 33 who recovered rapidly. Subjects were predominantly male (65%) with a median age of 53 years and Injury Severity Score of 36. Healthy controls (n = 48) had similar age and sex distributions. Overall, from the 163 metabolites detected in the samples, 56 metabolites and 21 pathways differed between injury outcome groups, and partial least squares discriminant analysis models distinguished injury outcome groups as early as 1-day postinjury. Differences were observed in tryptophan, phenylalanine, and tyrosine metabolism; metabolites associated with oxidative stress via methionine metabolism; inflammatory mediators including kynurenine, arachidonate, and glucuronic acid; and products of the gut microbiome including indole-3-propionate. CONCLUSIONS: The metabolic profiles in subjects who ultimately die or develop CCI differ from those who have recovered. In particular, we have identified differences in markers of inflammation, oxidative stress, amino acid metabolism, and alterations in the gut microbiome. Targeted metabolomics has the potential to identify important metabolic changes postinjury to improve early diagnosis and targeted intervention. LEVEL OF EVIDENCE: Prognostic/epidemiologic, level III.
Authors: Juan C Mira; Joseph Cuschieri; Tezcan Ozrazgat-Baslanti; Zhongkai Wang; Gabriela L Ghita; Tyler J Loftus; Julie A Stortz; Steven L Raymond; Jennifer D Lanz; Laura V Hennessy; Babette Brumback; Philip A Efron; Henry V Baker; Frederick A Moore; Ronald V Maier; Lyle L Moldawer; Scott C Brakenridge Journal: Crit Care Med Date: 2017-12 Impact factor: 7.598
Authors: Peggy Sekula; Oemer-Necmi Goek; Lydia Quaye; Clara Barrios; Andrew S Levey; Werner Römisch-Margl; Cristina Menni; Idil Yet; Christian Gieger; Lesley A Inker; Jerzy Adamski; Wolfram Gronwald; Thomas Illig; Katja Dettmer; Jan Krumsiek; Peter J Oefner; Ana M Valdes; Christa Meisinger; Josef Coresh; Tim D Spector; Robert P Mohney; Karsten Suhre; Gabi Kastenmüller; Anna Köttgen Journal: J Am Soc Nephrol Date: 2015-10-08 Impact factor: 10.121
Authors: Dijoia B Darden; Scott C Brakenridge; Philip A Efron; Gabriela L Ghita; Brittany P Fenner; Lauren S Kelly; Alicia M Mohr; Lyle L Moldawer; Frederick A Moore Journal: Ann Surg Date: 2021-10-01 Impact factor: 13.787
Authors: David Miranda; Rebecca Maine; Mackenzie Cook; Scott Brakenridge; Lyle Moldawer; Saman Arbabi; Grant O'Keefe; Bryce Robinson; Eileen M Bulger; Ronald Maier; Joseph Cuschieri Journal: Trauma Surg Acute Care Open Date: 2021-07-29
Authors: Animesh Acharjee; Jon Hazeldine; Alina Bazarova; Lavanya Deenadayalu; Jinkang Zhang; Conor Bentley; Dominic Russ; Janet M Lord; Georgios V Gkoutos; Stephen P Young; Mark A Foster Journal: Metabolites Date: 2021-12-31