Introduction: In septic shock, mitochondrial dysfunction, and hypoperfusion are the main triggers of multi-organ failure. Little is known about the crosstalk between mitochondrial dysfunction and hemodynamic alterations, especially in the post-resuscitation phase. Here, we assess whether hypoperfusion and lactate levels are associated with oxygen consumption linked to mitochondrial bioenergetic activity in lymphocytes of patients admitted with septic shock.
Patients and methods: Prospective cohort study in patients with septic shock defined as the requirement of vasopressors to maintain a mean arterial pressure 65 mm Hg after initial fluid administration. Basal mitochondrial and Complex I respiration was measured to evaluate mitochondrial activity. Both variables and capillary refill time were compared with arterial lactate post-fluid resuscitation. We also compared mitochondrial activity measurements between patients with and without hypoperfusion status.
Results: A total of 90 patients were included in analysis. The median arterial lactate at the time of septic shock diagnosis was 2.0 mmol/Dl (IQR 1.3-3.0). Baseline respiration at the time of septic shock diagnosis was correlated with lactate (Spearman -0.388, 95% CI -0.4893 to -0.1021; P = 0.003), as well as Complex I respiration (Spearman -0.403, 95% CI -0.567 to -0.208; P < 0.001). Patients with hypoperfusion status had no difference in basal respiration when compared with patients who did not have hypoperfusion status (P = 0.22) nor in Complex I respiration (P = 0.09).
Conclusion: Changes in lymphocytic mitochondrial metabolism are associated with post-resuscitation arterial lactate in septic shock; however, they are not associated with the presence of a hypoperfusional status. In this scenario, it is therefore suggested that systemic perfusion and mitochondrial metabolism have different courses.
Copyright © 2021 by the Shock Society.