Citrate confers less filter-induced complement activation and neutrophil degranulation than heparin when used for anticoagulation during continuous venovenous haemofiltration in critically ill patients

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 evaluate whether high volume haemofiltration improves haemodynamics and affects serum cytokine and complement concentrations in human septic shock. Randomized cross-over clinical trial in a tertiary intensive care unit. Eleven patients with septic shock and multi-organ failure. Patients were assigned to either 8 h of high-volume haemofiltration (HVHF; 6 l/h) or 8 h of standard continuous veno-venous haemofiltration (CVVH; 1 l/h) in random order. We measured changes in haemodynamic variables, dose of norepinephrine required to maintain a mean arterial pressure greater than 70 mmHg and plasma concentrations of complement anaphylatoxins and several cytokines. An 8-h period of HVHF was associated with a greater reduction in norepinephrine requirements than a similar period of CVVH (median reduction: 10.5 vs. 1.0 microg/min; p = 0.01; median percentage reduction: 68 vs. 7%; p = 0.02). Both therapies were associated with a temporary reduction (p < 0.01) in the plasma concentration of C3a, C5a, and interleukin 10 within 2 h of initiation. HVHF was associated with a greater reduction in the area under the curve for C3a and C5a (p < 0.01). The concentration of the measured soluble mediators in the ultrafiltrate was negligible. HVHF decreases vasopressor requirements in human septic shock and affects anaphylatoxin levels differently than standard CVVH.

During haemodialysis (HD), polymorphonuclear cells (PMNs) and platelets are activated and release various granule products, including myeloperoxidase (MPO) and platelet factor 4 (PF4). MPO triggers the generation of reactive oxygen species, leading to irreversible protein, carbohydrate and lipid modification. PF4 probably also contributes to oxidative stress. As previously shown, HD-induced PMN degranulation is almost completely abolished during citrate anticoagulation, most probably due to its calcium chelation ability. In the present study, apart from HD-induced PMN and platelet degranulation, oxidative stress was analysed during three modes of anticoagulation. Heparin, dalteparin and citrate (HDhep, HDdal and HDcit) were compared in a randomized, crossover fashion in eight chronic HD patients. Multiple blood samples were taken during the third HD session of each modality, from both the afferent and efferent line. Besides the degranulation markers MPO and PF4, various markers of oxidative stress were measured, including oxidized low-density lipoprotein (ox-LDL), malondialdehyde (MDA) and carboxymethyllysine (CML). During HDhep and HDdal, marked degranulation was observed shortly after the start of HD. In contrast, during HDcit, PF4 and MPO levels remained unaltered, suggesting no release at all. After 1 week of HDcit, ox-LDL levels were markedly reduced [median 26% (3-65%), P=0.01], if compared with HDhep and HDdal. As regards MDA and CML, no differences were found. This study shows first, that HD-induced PMN and platelet degranulation are early, most probably calcium-dependent processes and, secondly, that the formation of ox-LDL is clearly dependent on the type of anticoagulant applied.