Impact of anion exchange adsorbents on regional citrate anticoagulation

Introduction: Heparin and citrate are commonly used anticoagulants in membrane/adsorption based extracorporeal liver support systems. However, anion exchange resins employed for the removal of negatively charged target molecules including bilirubin may also deplete these anticoagulants due to their negative charge. The aim of this study was to evaluate the adsorption of citrate by anion exchange resins and the impact on extracorporeal Ca(2+)concentrations. Methods: Liver support treatments were simulated in vitro. Citrate and Ca(2+)concentrations were measured pre and post albumin filter as well as pre and post adsorbents. In addition, batch experiments were performed to quantify citrate adsorption. Results: Pre albumin filter target Ca(2+)concentrations were reached well with only minor deviations. Citrate was adsorbed by anion exchange resins, resulting in a higher Ca(2+)concentration downstream of the adsorbent cartridges during the first hour of treatment. Conclusions: The anion exchange resin depletes citrate, leading to an increased Ca(2+)concentration in the extracorporeal circuit, which may cause an increased risk of clotting during the first hour of treatment. An increase of citrate infusion during the first hour of treatment should therefore be considered to compensate for the adsorption of citrate.

Automated summary

The study demonstrates that anion exchange resins can adsorb citrate, leading to an increase in extracorporeal Ca(2+) concentration and an increased risk of clotting. This highlights the importance of considering increasing citrate infusion during the first hour of treatment to compensate for citrate adsorption.