Optimization Strategy for Oxygen Delivery Under Cardiopulmonary Bypass
NCT05984563 · Status: TERMINATED · Type: OBSERVATIONAL · Enrollment: 6
Last updated 2026-05-22
Summary
Cardiac surgery is a frequent procedure that can lead to serious complications, including acute kidney injury (AKI) or postoperative delirium. During the intervention, a cardiopulmonary bypass (CPB) is used to ensure tissue perfusion and oxygen delivery (DO2). The hypothesisis that an individualized strategy to optimize DO2 during CPB could decrease complications rate after cardiac surgery. Indeed, it is known that DO2 depends on CPB output, hemoglobin level and O2 tension. To this day, a DO2 threshold below 280 mL is known to be associated with postoperative AKI. From these data, a "Goal Directed Perfusion" strategy is widely used to maintain a DO2 above this threshold during CPB. But DO2 decrease in unpredictable, and the other factors influencing DO2 interindividual variability are not known. Moreover, the relation between DO2 and tissue perfusion is not well established, as DO2 requirement could differ between individuals or organs. Population approach using nonlinear mixed models is a method used to optimize drug administration with pharmacokinetics and pharmacodynamics models. Using this method, the aim of this study is to evaluate DO2 variability during CPB and develop a model to optimize GDP strategy.
Conditions
- Cardiac Surgery
Interventions
- DEVICE
-
Cardiopulmonary bypass
CPB will be ensured as usual care: priming volume will be set as 1200 to 1500 mL. Patient blood management and hemodynamic management will be left at the discretion of the anesthesiologist in charge of the patient. Anticoagulation during CPB will be handled through an initial heparin bolus of 300-400 UI/kg followed by additional boluses to maintain ACT above 400 s. Non-heparin-coated bypass circuits incorporating an integrated phosphorylcholine-coated oxygenation system will be used.
Sponsors & Collaborators
-
University Hospital, Lille
lead OTHER
Eligibility
- Min Age
- 18 Years
- Max Age
- 100 Years
- Sex
- ALL
- Healthy Volunteers
- No
Timeline & Regulatory
- Start
- 2023-10-03
- Primary Completion
- 2023-11-19
- Completion
- 2023-11-19
Countries
- France
Study Locations
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