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Smoking Primes the Metabolomic Response in Trauma.
Journal of Trauma and Acute Care Surgery 2024 March 30
INTRODUCTION: Smoking is a public health threat due to its well described link to increased oxidative stress-related diseases including peripheral vascular disease and coronary artery disease. Tobacco use has been linked to risk of inpatient trauma morbidity including acute respiratory distress syndrome, however its mechanistic effect on comprehensive metabolic heterogeneity has yet to be examined.
METHODS: Plasma was obtained on arrival from injured patients at a Level 1 Trauma Center and analyzed with modern mass spectrometry-based metabolomics. Patients were stratified by non-smoker, passive smoker and active smoker by lower, inter-quartile and upper quartile ranges of cotinine intensity peaks. Patients were sub-stratified by High Injury/High Shock (Injury Severity Score ≥ 15, Base Excess<-6) and compared to healthy controls. P-value <0.05 following FDR correction of t-test was considered significant.
RESULTS: 48 patients with High Injury/High Shock (7 (15%) non-smokers, 25 (52%) passive smokers and 16 (33%) active smokers) and 95 healthy patients who served as controls (30 (32%) non-smokers, 43 (45%) passive smokers and 22 (23%) active smokers) were included. Elevated metabolites in our controls who were active smokers include enrichment in chronic inflammatory and oxidative processes. Elevated metabolites in active smokers in high injury/high shock include enrichment in the malate-aspartate shuttle, tyrosine metabolism, carnitine synthesis, and oxidation of very long-chain fatty acids.
CONCLUSIONS: Smoking promotes a state of oxidative stress leading to mitochondrial dysfunction which is additive to the inflammatory milieu of trauma. Smoking is associated with impaired mitochondrial substrate utilization of long-chain fatty acids, aspartate and tyrosine all of which accentuate oxidative stress following injury. This altered expression represents an ideal target for therapies to reduce oxidative damage toward the goal of personalized treatment of trauma patients.
LEVEL OF EVIDENCE: Level III, Prognostic/Epidemiological.
METHODS: Plasma was obtained on arrival from injured patients at a Level 1 Trauma Center and analyzed with modern mass spectrometry-based metabolomics. Patients were stratified by non-smoker, passive smoker and active smoker by lower, inter-quartile and upper quartile ranges of cotinine intensity peaks. Patients were sub-stratified by High Injury/High Shock (Injury Severity Score ≥ 15, Base Excess<-6) and compared to healthy controls. P-value <0.05 following FDR correction of t-test was considered significant.
RESULTS: 48 patients with High Injury/High Shock (7 (15%) non-smokers, 25 (52%) passive smokers and 16 (33%) active smokers) and 95 healthy patients who served as controls (30 (32%) non-smokers, 43 (45%) passive smokers and 22 (23%) active smokers) were included. Elevated metabolites in our controls who were active smokers include enrichment in chronic inflammatory and oxidative processes. Elevated metabolites in active smokers in high injury/high shock include enrichment in the malate-aspartate shuttle, tyrosine metabolism, carnitine synthesis, and oxidation of very long-chain fatty acids.
CONCLUSIONS: Smoking promotes a state of oxidative stress leading to mitochondrial dysfunction which is additive to the inflammatory milieu of trauma. Smoking is associated with impaired mitochondrial substrate utilization of long-chain fatty acids, aspartate and tyrosine all of which accentuate oxidative stress following injury. This altered expression represents an ideal target for therapies to reduce oxidative damage toward the goal of personalized treatment of trauma patients.
LEVEL OF EVIDENCE: Level III, Prognostic/Epidemiological.
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