Acute Kidney Injury Clinical Trial
Official title:
Citrate Versus Heparin Anticoagulation in Continuous Venovenous Hemofiltration in Critically Ill Patients With Acute Renal Failure: A Randomized Clinical Trial
The purpose of this study is to compare citrate regional anticoagulation with systemic heparinization in continuous venovenous hemofiltration. The investigators' hypothesis is, that regional citrate anticoagulation with replacement solution containing trisodium citrate, will be associated with lower mortality and less bleeding complications compared to heparin, with also a better filter survival.
Acute renal failure occurs in about 20% of critically ill patients and is associated with
increased morbidity and mortality, in spite of modern renal replacement techniques. The
latter include continuous venovenous hemofiltration (CVVH) techniques, necessitating
anticoagulation of blood entering the extracorporeal circuit to prevent premature clot
formation and hemofilter dysfunction. Heparin is commonly used for that purpose, but carries
a serious risk of bleeding complications and heparin induced thrombocytopenia. In a subgroup
of critically ill patients systemic anticoagulation is absolutely contraindicated.
Citrate-anticoagulant CVVH carries the potential advantage of less bleeding complications
and prolonged filter survival, but carries the risk of hypocalcaemia, when citrate is
inappropriately or insufficiently counteracted by calcium infusion after passage of blood
through the filter. In addition, when too much citrate enters the circulation, a metabolic
alkalosis may develop, since citrate is converted to bicarbonate by the liver.
Moreover, continuous filtration techniques may attenuate a potentially harmful exaggerated
immune response, particularly when high volume filtration (> 6 L/h) is used. Also, the type
of anticoagulation may modulate immune responses, as known from biocompatibility studies in
intermittent hemodialysis.
In the first part of the research proposal concerning high bleeding risk patients a
comparison will be made in a prospective sequential cohort study between no anticoagulation
and citrate regarding filter survival time, bleeding risk, dialyser efficacy, circulating
immune mediators (such as neutrophil elastase and myeloperoxidase, interleukins,
platelet-activating factors, activated complement products, soluble cytokine receptors and
adhesion molecules), metabolic balance, and acute renal failure duration. Also, filter
survival time will be assessed. The purpose of the second part of the current research
proposal is to evaluate in a randomised controlled clinical trial in 350 critically ill
patients (18-80 years) with acute renal failure, (2 arms of 175 patients), without an
increased bleeding risk (thrombocytes > 40 x 10^9/L, APTT < 60 sec, PT-INR < 2) whether
citrate CVVH is better than bicarbonate-heparin CVVH in terms of the same parameters as in
the first part of the study but with the addition of mortality as the primary endpoint.
For this purpose a simple predilution system and citrate adjustment protocol will be used
and compared to standard heparin dosing. This replacement solution shall be custom made,
containing trisodium citrate, no lactate or bicarbonate, no calcium and a low sodium
content.
Main objective: Investigation of the mortality during continuous venovenous hemofiltration
with systemic anticoagulation with heparin compared with regional anticoagulation with
trisodium citrate and also the investigation of the filter survival. Our hypothesis is, that
regional citrate anticoagulation with replacement solution containing trisodium citrate,
will be associated with less bleeding complications compared to heparin, with also a better
filter survival. Most important we want to evaluate the hypothesis that treatment with
citrate will result in a lower mortality compared to treatment with systemic heparinization.
Regional anticoagulation with trisodium citrate may also have some potential effects on the
immune response as known from biocompatibility studies in intermittent hemodialysis.
Bioincompatibility leads to polymorphonuclear cell degranulation as indicated by the release
of intracellular granule products such as myeloperoxidase, lactoferrin, lysozyme and
elastase. Citrate anticoagulation may lead to a lower polymorphonuclear cell degranulation,
since cations play a pivotal role in the process of cell activation and citrate creates an
almost calcium-free environment within the dialyser by its virtue to chelate calcium.
Primary endpoints:
Mortality at day 28 after inclusion will be evaluated. Survival time of the first hemofilter
used will be determined, including the cause of filter termination and the number of filters
used in the first 72 hours; the average filter patency time will be calculated.
Citrate CVVH is stopped and thus also the study, if the patient fulfils one of the following
criteria:
1. Total to ionised calcium ratio of more than 2.5.
2. Persistent metabolic alkalosis with a B.E. of more than 10.
3. Clinical signs of hypocalcaemia: tetanic symptoms or prolonged QT interval
4. Progressive non-lactic acidosis (pH < 7.20) during CVVH combined with an increase in
anion gap (> 13) without the presence of endo- or exogenous acids other than citrate
suggesting citrate accumulation
Patients on heparin developing a HIT will continue CVVH with danaparoid anticoagulation.
Patients on heparin developing a bleeding episode will continue CVVH with regional citrate
anticoagulation.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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