Optimal protamine dosing after cardiopulmonary bypass: The PRODOSE adaptive randomised controlled trial

Lachlan F Miles, Christiana Burt, Joseph Arrowsmith, Mikel A McKie, Sofia S Villar, Pooveshnie Govender, Ruth Shaylor, Zihui Tan, Ravi De Silva and Florian Falter

PLOS Medicine, 2021, vol. 18, issue 6, 1-16

Abstract: Background: The dose of protamine required following cardiopulmonary bypass (CPB) is often determined by the dose of heparin required pre-CPB, expressed as a fixed ratio. Dosing based on mathematical models of heparin clearance is postulated to improve protamine dosing precision and coagulation. We hypothesised that protamine dosing based on a 2-compartment model would improve thromboelastography (TEG) parameters and reduce the dose of protamine administered, relative to a fixed ratio. Methods and findings: We undertook a 2-stage, adaptive randomised controlled trial, allocating 228 participants to receive protamine dosed according to a mathematical model of heparin clearance or a fixed ratio of 1 mg of protamine for every 100 IU of heparin required to establish anticoagulation pre-CPB. A planned, blinded interim analysis was undertaken after the recruitment of 50% of the study cohort. Following this, the randomisation ratio was adapted from 1:1 to 1:1.33 to increase recruitment to the superior arm while maintaining study power. At the conclusion of trial recruitment, we had randomised 121 patients to the intervention arm and 107 patients to the control arm. The primary endpoint was kaolin TEG r-time measured 3 minutes after protamine administration at the end of CPB. Secondary endpoints included ratio of kaolin TEG r-time pre-CPB to the same metric following protamine administration, requirement for allogeneic red cell transfusion, intercostal catheter drainage at 4 hours postoperatively, and the requirement for reoperation due to bleeding. The trial was listed on a clinical trial registry (ClinicalTrials.gov Identifier: NCT03532594). Conclusions: Using a mathematical model to guide protamine dosing in patients following CPB improved TEG r-time and reduced the dose administered relative to a fixed ratio. No differences were detected in postoperative mediastinal/pleural drainage or red blood cell transfusion requirement in our cohort of low-risk patients. Trial registration: ClinicalTrials.gov Unique identifier NCT03532594. Lachlan Miles and co-workers report on a randomized controlled trial seeking to optimise protamine dosing after cardiopulmonary bypass.Why was this study done?: What did the researchers do and find?: What do these findings mean?:

Date: 2021
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pmed00:1003658

DOI: 10.1371/journal.pmed.1003658

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