Studies involving disease:Sepsis
| Study ID | Study Title | Species | Institute |
|---|---|---|---|
| ST000785 | Pharmacometabolomics of L-Carnitine Treatment Response Phenotypes in Patients with Septic Shock | Human | University of Michigan |
| ST001101 | Identification of potential sepsis biomarkers in burn injury conditions. | Mouse | Texas Tech University |
| ST001190 | Sepsis-related metabolic changes in ileum, jejunum, skeletal muscle, liver and lung | Pig | Indiana University School of Medicine |
| ST001255 | Immunomodulatory activity of hyaluronidase is associated with metabolic adaptations during acute inflammation | Mouse | Sao Paulo University |
| ST001294 | Estimating Platelet Mitochondrial Function in Patients with Sepsis - Platelet NMRs (part-I) | Human | University of Michigan; University of Mississippi; University of Minnesota |
| ST001295 | Estimating Platelet Mitochondrial Function in Patients with Sepsis - WB NMRs (part-II) | Human | University of Michigan; University of Mississippi; University of Minnesota |
| ST001319 | Pre-treatment L-Carnitine Pharmacometabolomics in Sepsis (CaPS) Patients | Human | University of Michigan |
| ST001354 | 48 hours post-treatment L-Carnitine Pharmacometabolomics in Sepsis (CaPS) Patients | Human | University of Michigan |
| ST001390 | Natural history of the systemic responses to a renal inoculation of uropathogenic E. coli in swine | Pig | University of Michigan |
| ST001499 | Metabolomics reveals the protective effect of isosteviol sodium against multiple organ injury in septic mice - Heart | Mouse | Guangdong University of Technology |
| ST001500 | Metabolomics reveals the protective effect of isosteviol sodium against multiple organ injury in septic mice - Liver | Mouse | Guangdong University of Technology |
| ST001502 | Metabolomics reveals the protective effect of isosteviol sodium against multiple organ injury in septic mice - Lung | Mouse | Guangdong University of Technology |
| ST001503 | Metabolomics reveals the protective effect of isosteviol sodium against multiple organ injury in septic mice - Kidney | Mouse | Guangdong University of Technology |
| ST001504 | Metabolomics reveals the protective effect of isosteviol sodium against multiple organ injury in septic mice - Spleen | Mouse | Guangdong University of Technology |
| ST001505 | Metabolomics reveals the protective effect of isosteviol sodium against multiple organ injury in septic mice - Plasma | Mouse | Guangdong University of Technology |
| ST002455 | Organism-Wide Analysis of Sepsis Reveals Mechanisms of Systemic Inflammation | Mouse | University of Chicago |
| ST003136 | Circulating N-lactoyl-amino acids and N-formyl-methionine reflect mitochondrial dysfunction and predict mortality in septic shock | Human | Massachusetts General Hospital |
| ST003189 | Untargeted Metabolomic Profile of Septic Shock in the Emergency Department | Human | National Taiwan University |
| ST003439 | Metabolomics of human serum to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part1 human metabolites) | Human | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003456 | Lipidomics of human serum to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part2 human lipids) | Human | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003457 | Metabolomics of mice heart to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part3 mice heart metabolite) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003458 | Metabolomics of mice kidney to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part4 mice kidney metabolite) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003459 | Metabolomics of mice liver to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part5 mice liver metabolite) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003460 | Metabolomics of mice serum to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part6 mice serum metabolite) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003461 | Metabolomics of mice spleen to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part7 mice spleen metabolite) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003462 | Metabolomics of mice white adipose tissue to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part8 mice white adipose tissue metabolite) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003464 | Lipidomics of mice heart to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part9 mice heart lipid) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003465 | Lipidomics of mice kidney to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part10 mice kidney lipid) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003466 | Lipidomics of mice liver to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part11 mice liver lipid) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003467 | Lipidomics of mice serum to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part12 mice serum lipid) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003468 | Lipidomics of mice spleen to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part13 mice spleen lipid) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003469 | Lipidomics of mice white adipose tissue to support understanding of early metabolic shift in presymptomatic sepsis patients. (Part14 mice white adipose tissue lipid) | Mouse | Leibniz Institute for Natural Product Research and Infection Biology Hans Knöll Institute |
| ST003980 | Glutamate-mediated TCA anaplerosis is increased in septic mitochondria | Mouse | Ghent University |
| ST003981 | Mitochondrial pyruvate metabolism is disturbed in sepsis | Mouse | Ghent University |
| ST003982 | Mitochondrial pyruvate metabolism is disturbed and contributes to hyperlactatemia and lethality in sepsis - Liver, Plasma, Skeletal muscle | Mouse | Ghent University |
| ST003983 | Mitochondrial pyruvate metabolism is disturbed and contributes to hyperlactatemia and lethality in sepsis - Lung, Heart, Spleen, Kidney, RBC | Mouse | Ghent University |
