Septic shock is defined as a subset of sepsis with severe metabolism alterations, leading to organ failure. Septic shock is associated with a high mortality, around 40% according to the SEPSIS 3 definition. Metabolic alterations are responsible for lactic acidosis, and results in mitochondrial dysfunction. This study aims at evaluate the impact of exogenous metabolites on restoring mitochondrial function in septic shock patients with lactate acidosis. Mitochondrial metabolism (quantitative analysis, mitochondrial function) in intact Peripheral Blood Mononuclear Cells (PBMC) will be isolate and analyse from patients at the early phase of septic shock (admission), at day 2 and 4. Participant's medical history will be recorded: renal and liver metabolism, severity scores and outcomes and the need for supportive care in the intensive care unit (ICU) until 28 days after admission. Furthermore, the investigators will evaluate wether selected metabolites added to the cell culture medium may improve mitochondrial metabolism.
In this prospective study, the investigators will include patients admitted to the medical ICU of Angers University Hospital and meeting the SEPSIS-3 criteria for the definition of septic shock (Sequential Organ Failure Assessment (SOFA) score \> 2, hyperlactatemia \> 2 mmol/L and sepsis). Blood samples will be collected during the usual care of initial resuscitation and analyzed in the laboratory INSERM (Institut national de la santé et de la recherche médicale) U1232 (University Hospital of Angers). Mitochondrial metabolism will be analyzed in freshly isolated PBMC and after culture for 1-3 days, with or without the addition of selected metabolites to the cell culture medium. The evolution of ketogenesis, mitochondrial function, acidobasic status will be assessed across the time (blood samples at day 2 and 4). Survival, renal and liver metabolism, severity scores and outcomes and the need for supportive care in the intensive care unit (ICU) until 28 days after admission will be recorded.
Study Type
OBSERVATIONAL
Enrollment
55
Whole blood samples at admission, from day one to three after admission
CHU
Angers, Maine et Loire, France
RECRUITINGChange in mitochondrial metabolism (mitochondrial membrane depolarization and respiration) with the supplementation of metabolite in the cell culture medium
Using Fluorescence-activated cell sorting system to assess the membrane depolarization of the mitochondria and Oroboros system for mitochondrial respiration
Time frame: Day 0 (whole blood after cells separation), Day 1-3 after cell culture
Overall survival at 28 days
Survival of patients after ICU admission
Time frame: Day 28
Change in organs failure
Using the Sequential Organ Failure Assessment Score
Time frame: From Day 0 to Day 4
Change and correlation between lactic acidosis, ketogenesis and mitochondrial function evolutions
biochemical analysis of blood samples, assessment of mitochondrial metabolism (quantitative and qualitative analysis).
Time frame: From Day 1 to Day 3
Need for renal replacement therapy during the ICU stay
Need for renal replacement therapy and its duration
Time frame: From Day 1 to Day 28
Need for vasopressors during the ICU stay
Need for vasopressors during the ICU stay and its duration
Time frame: From Day 1 to Day 28
Need for mechanical ventilation during the ICU stay
Need for mechanical ventilation during the ICU stay and its duration
Time frame: From Day 1 to Day 28
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