OBJECTIVE: To evaluate the effects of the stable prostacyclin analogue iloprost on hepato-splanchnic blood flow, oxygen exchange and metabolism in patients with septic shock. DESIGN: Prospective clinical study. SETTING: Intensive care unit in a university clinic. PATIENTS: Eleven patients with septic shock requiring norepinephrine to maintain mean arterial pressure above 70 mmHg. INTERVENTIONS: Iloprost was incrementally infused to increase cardiac index by 15%. MEASUREMENTS AND MAIN RESULTS: Splanchnic blood flow (Qspl) was measured using the steady-state indocyanine-green infusion technique and endogenous glucose production rate (EGP) using a stable isotope approach. Systemic and splanchnic oxygen consumption (VO2), the hepato-splanchnic uptake rates of the glucose precursors lactate, pyruvate, alanine and glutamine, the hepatic venous redox state and gastric mucosal-arterial PCO2 gradients were determined. After a baseline measurement, iloprost infusion was started. After 90 min all measurements were repeated and a third measurement was obtained after another 90 min following iloprost withdrawal. Qspl (baseline I: 0.82/0.75-1.08 l x min x m2; iloprost: 0.94/0.88-1.29 l x min x m2; baseline II: 0.87/0.74-1.09 l x min x m2) and splanchnic oxygen delivery (baseline I: 122/103-166 ml x min x m2; iloprost: 134/117-203 ml x min x m2; baseline II: 130/98-158 ml x min x m2) significantly increased. While systemic VO2 significantly increased (baseline I: 139/131-142 ml x min x m2; iloprost: 147/136-164 ml x min x m2; baseline II: 143/133-154 ml x min x m2) splanchnic VO2 increased in 9 of 11 patients which, however, did not reach statistical significance. EGP significantly decreased (baseline I: 23/16-26 micromol x kg x min; iloprost: 16/14-21 micromol x kg x min; baseline II: 18/12-20 micromol x kg x min), whereas all other parameters of energy metabolism remained unchanged. CONCLUSION: In patients with septic shock an iloprost-induced increase in cardiac index increased splanchnic blood flow and shifted oxygen utilization from the energy requiring de novo glucose production rate to other oxygen-demanding metabolic pathways.
OBJECTIVE: To evaluate the effects of the stable prostacyclin analogue iloprost on hepato-splanchnic blood flow, oxygen exchange and metabolism in patients with septic shock. DESIGN: Prospective clinical study. SETTING: Intensive care unit in a university clinic. PATIENTS: Eleven patients with septic shock requiring norepinephrine to maintain mean arterial pressure above 70 mmHg. INTERVENTIONS:Iloprost was incrementally infused to increase cardiac index by 15%. MEASUREMENTS AND MAIN RESULTS:Splanchnic blood flow (Qspl) was measured using the steady-state indocyanine-green infusion technique and endogenous glucose production rate (EGP) using a stable isotope approach. Systemic and splanchnic oxygen consumption (VO2), the hepato-splanchnic uptake rates of the glucose precursors lactate, pyruvate, alanine and glutamine, the hepatic venous redox state and gastric mucosal-arterial PCO2 gradients were determined. After a baseline measurement, iloprost infusion was started. After 90 min all measurements were repeated and a third measurement was obtained after another 90 min following iloprost withdrawal. Qspl (baseline I: 0.82/0.75-1.08 l x min x m2; iloprost: 0.94/0.88-1.29 l x min x m2; baseline II: 0.87/0.74-1.09 l x min x m2) and splanchnic oxygen delivery (baseline I: 122/103-166 ml x min x m2; iloprost: 134/117-203 ml x min x m2; baseline II: 130/98-158 ml x min x m2) significantly increased. While systemic VO2 significantly increased (baseline I: 139/131-142 ml x min x m2; iloprost: 147/136-164 ml x min x m2; baseline II: 143/133-154 ml x min x m2) splanchnic VO2 increased in 9 of 11 patients which, however, did not reach statistical significance. EGP significantly decreased (baseline I: 23/16-26 micromol x kg x min; iloprost: 16/14-21 micromol x kg x min; baseline II: 18/12-20 micromol x kg x min), whereas all other parameters of energy metabolism remained unchanged. CONCLUSION: In patients with septic shock an iloprost-induced increase in cardiac index increased splanchnic blood flow and shifted oxygen utilization from the energy requiring de novo glucose production rate to other oxygen-demanding metabolic pathways.
Authors: Elizabeth L Cureton; Terry J Chong; Rita O Kwan; Kristopher C Dozier; Javid Sadjadi; Brian Curran; Gregory P Victorino Journal: Shock Date: 2010-06 Impact factor: 3.454
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