A Target-Oriented Algorithm for Citrate-Calcium Anticoagulation in Clinical Practice

Continuous venovenous hemofiltration (CVVH) is applied in critically ill patients with acute renal failure for renal replacement. Heparins used to prevent circuit clotting may cause bleeding. Regional anticoagulation with citrate reduces bleeding, but has metabolic risks. The aim was to compare the safety and efficacy of the two. Randomized, nonblinded, controlled single-center trial. General intensive care unit of a teaching hospital. Adult critically ill patients needing CVVH for acute renal failure and without an increased bleeding risk. Regional anticoagulation with citrate or systemic anticoagulation with the low-molecular weight heparin nadroparin. End points were adverse events necessitating discontinuation of study anticoagulant, transfusion, metabolic and clinical outcomes, and circuit survival. Of the 215 randomized patients, 200 received CVVH per protocol (97 citrate and 103 nadroparin). Adverse events required discontinuation of citrate in two patients (accumulation and clotting) of nadroparin in 20 (bleeding and thrombocytopenia) (p < 0.001). Bleeding occurred in 6 vs. 16 patients (p = 0.08). The median number of red blood cell units transfused per CVVH day was 0.27 (interquartile range, 0.0-0.63) for citrate, 0.36 (interquartile range, 0-0.83) for nadroparin (p = 0.31). Citrate conferred less metabolic alkalosis (p = 0.001) and lower plasma calcium (p < 0.001). Circuit survival was similar. Three-month mortality on intention-to-treat was 48% (citrate) and 63% (nadroparin) (p = 0.03), per protocol 45% and 62% (p = 0.02). Citrate reduced mortality in surgical patients (p = 0.007), sepsis (p = 0.01), higher Sepsis-Related Organ Failure Assessment score (p = 0.006), and lower age (p = 0.009). The efficacy of citrate and nadroparin anticoagulation for CVVH was similar, however, citrate was safer. Unexpectedly, citrate reduced mortality. Less bleeding could only partly explain this benefit, less clotting could not. Post hoc citrate appeared particularly beneficial after surgery, in sepsis and severe multiple organ failure, suggesting interference with inflammation.

To compare the efficacy and safety of adjusted-dose unfractionated heparin with that of regional citrate anticoagulation in intensive care patients treated by continuous venovenous hemofiltration (CVVH). Prospective, randomized, clinical trial in a 32-bed medical and surgical ICU in a university teaching hospital. ICU patients with acute renal failure requiring continuous renal replacement therapy, without cirrhosis, severe coagulopathy, or known sensitivity to heparin. Before the first CVVH run patients were randomized to receive anticoagulation with heparin or trisodium citrate. Patients eligible for another CVVH run received the other study medication in a cross-over fashion until the fourth circuit. Forty-nine circuits (hemofilters) were analyzed: 23 with heparin and 26 with citrate. The median lifetime of hemofilters was 70 h (interquartile range 44-140) with citrate anticoagulation and 40 h (17-48) with heparin (p=0.0007). One major bleeding occurred during heparin anticoagulation and one metabolic alkalosis (pH=7.60) was noted with citrate after a protocol violation. Transfusion rates (units of red cells per day of CVVH) were, respectively, 0.2 (0.0-0.4) with citrate and 1.0 (0.0-2.0) with heparin (p=0.0008). Regional citrate anticoagulation seems superior to heparin for the filter lifetime and transfusion requirements in ICU patients treated by continuous renal replacement therapy.

We determined the effect of regional citrate versus systemic heparin anticoagulation for continuous renal replacement therapy in critically ill subjects suffering from acute renal failure who were not at high risk for hemorrhagic complications. Between April 1999 and June 2002, 30 critically ill subjects requiring continuous renal replacement therapy and using 79 hemofilters were randomly assigned to receive regional citrate or systemic heparin anticoagulation. The median hemofilter survival time was 124.5 hours (95% CI 95.3 to 157.4) in the citrate group, which was significantly longer than the 38.3 hours (95% CI 24.8 to 61.9) in the heparin group (P < 0.001). Increasing illness severity score, male gender, and decreasing antithrombin-III levels were independent predictors of an increased relative hazard of hemofilter failure. After adjustment for illness severity, antithrombin-III levels increased significantly more over the period of study in the citrate as compared to the heparin group (P= 0.038). Moreover, after adjustment for antithrombin-III levels and illness severity score, the relative risk of hemorrhage with citrate anticoagulation was significantly lower than that with heparin (relative risk of 0.14; 95% CI 0.02 to 0.96, P= 0.05). Compared with systemic heparin anticoagulation, regional citrate anticoagulation significantly increases hemofilter survival time, and significantly decreases bleeding risk in critically ill patients suffering from acute renal failure and requiring continuous renal replacement therapy.