Regional citrate anticoagulation in continuous hemodialysis--acid-base and electrolyte balance at an increased dose of dialysis.

BACKGROUND: Citrate anticoagulation is an excellent alternative to heparin anticoagulation for patients at high risk of bleeding requiring continuous renal replacement therapy. However, citrate anticoagulation has some potential adverse effects such as metabolic alkalosis and acidosis, hypernatremia, hypo- and hypercalcemia. Thus, most citrate anticoagulation protocols use specially designed dialysis fluids to compensate for most of these disarrangements. This study aimed at establishing a citrate anticoagulation protocol designed for a dialysate flow rate of about 2 l/h. METHODS: Based on theoretical considerations we composed a dialysis fluid suitable for a 2 l/h dialysis flow rate. The dialysate contained 133 mmol/l sodium, 2 mmol/l potassium, 1.1 mmol/l magnesium, 25 mmol/l lactate, and 112.2 mmol/l chloride. RESULTS: Twenty-three patients were included in the study. During the treatments minor flow rate adaptations were needed and the treatments were well tolerated. Filter life was appropriate (51.3 +/- 24.6 h). Thirteen patients developed a mild metabolic alkalosis (pH > 7.45 plus BE > +3) which was easily counteracted by increasing the dialysis fluid flow (by increments of 500 ml). Acid-base values returned to normal within 24 h after increasing the dialysate flow. The maximum dialysate flow was 3,000 ml/h. Hypernatremia and hypocalcemia were not observed. The systemic ionized calcium concentration was successfully controlled by adjustments of a continuous calcium infusion made with respect to the results of 6-hourly measurements. CONCLUSION: The analyzed citrate anticoagulation protocol was well tolerated and filter lifetime was appropriate. Regional anticoagulation with trisodium citrate in combination with a customized calcium-free dialysate is a safe and effective alternative to a heparin-based anticoagulation regimen.

Metabolic complications during regional citrate anticoagulation in continuous venovenous hemodialysis: single-center experience.

BACKGROUND: Regional anticoagulation with trisodium citrate is an effective form of anticoagulation for continuous renal replacement therapy (CRRT) in patients at a high risk of bleeding. In a prospective, observational study we compared an established regional citrate anticoagulation protocol [Mehta R et al: Kidney Int 1990;38:976-981] versus a standard heparin anticoagulation protocol focusing on acid-base and electrolyte derangements as well as on cost effectiveness. METHODS AND RESULTS: 209 patients were included in the study. In 37 patients, citrate was used as the sole anticoagulant, 87 patients received low-dose heparin plus citrate, and 85 patients received only heparin as anticoagulant. A customized dialysate solution was used for citrate-anticoagulated CRRT (no buffer, no calcium, reduced sodium concentration). Filter life was significantly higher during citrate anticoagulation compared to heparin anticoagulation (80.2 +/- 60 vs. 30.2 +/- 32 h; p < 0.001). No difference was found between citrate and citrate-heparin anticoagulation (p = 0.310). Metabolic alkalosis was observed in more than 50% of patients on citrate anticoagulation. Alkalosis developed within the first 72 h after initiating treatment and could be reversed in almost all cases by increasing the dialysate flow rate. Hypercalcemia was observed in 13 patients on citrate anticoagulation. Patients with impaired liver function were particularly at risk. Systemic hypocalcemia, hypernatremia, and anion gap acidosis were not observed. Citrate anticoagulation was well tolerated hemodynamically. A longer filter life during citrate anticoagulation translated into a significant cost reduction compared to standard heparin anticoagulation (p < 0.01). CONCLUSION: Regional anticoagulation with trisodium citrate in combination with a customized calcium-free dialysate is a safe and effective alternative to a heparin-based anticoagulation regimen.

High permeability haemofiltration improves peripheral blood mononuclear cell proliferation in septic patients with acute renal failure.

BACKGROUND: Continuous veno-venous haemofiltration (HF) with high permeability (HP) haemofilters is a novel approach in the adjuvant therapy of septic patients. HP haemofilters are characterized by an increased pore size which facilitates the filtration of inflammatory mediators. The present study examines whether HP-HF has an impact on peripheral blood mononuclear cell (PBMC) proliferation and whether ultrafiltrate can alter PBMC function in isolates from healthy volunteers. METHODS: Twenty-eight septic patients with acute renal failure were randomly allocated to either HP-HF or conventional HF (C-HF). HP-HF was performed with a newly developed high-flux polyamide membrane (P2SH) with a nominal cut-off point of 60 kDa. For C-HF, a high-flux polyamide haemofilter (Polyflux 11S; cut-off, 30 kDa) was used. RESULTS: Septic patients demonstrated a significantly reduced proliferation of anti-CD3-stimulated PBMCs compared to healthy controls (P = 0.016). Initiating HF led to a restoration of the PBMC proliferation in HP-HF but not in C-HF. Exposing PBMCs isolated from healthy donors to ultrafiltrates from patients with sepsis demonstrated a significant suppressive effect of HP ultrafiltrates on the anti-CD3-stimulated PBMC proliferation (P = 0.011). Ultrafiltrate from patients with sepsis who received C-HF had no impact on PBMC proliferation. CONCLUSION: HP-HF restores PBMC proliferation in septic patients probably by eliminating immunomodulatory mediators. HP-HF may represent a new renal replacement therapy able to modulate PBMC function in sepsis.

Acute intravascular hemolysis after transfusion of a chimeric RBC unit.

BACKGROUND: Natural blood cell chimerism rarely occurs in humans. The case of a patient who developed transfusion reaction due to the transfusion of chimeric RBCs is reported. CASE REPORT: A 61-year-old male patient with blood group O received two units of packed and O-grouped RBCs after elective kidney surgery. Immediately after blood transfusion, the patient developed a hemolytic transfusion attack. The serologic re-examination revealed only a mixed-field pattern of agglutination of RBCs in one of the two transfused units. The donor of this unit was an apparently healthy 24-year-old male with a twin sister. Both of them showed an identical mixture of roughly 95 percent group O and 5 percent group B RBCs by gel agglutination technology and flow cytometry. The results were also confirmed by ABO blood group genotyping. CONCLUSIONS: This is the first report of a hemolytic transfusion reaction related to the transfusion of chimeric RBCs.

Intermittent high-permeability hemofiltration modulates inflammatory response in septic patients with multiorgan failure.

BACKGROUND/AIM: Continuous venovenous hemofiltration with high-permeability hemofilters is a novel approach in the adjuvant therapy of septic patients. High-permeability hemofilters are characterized by an increased pore size which facilitates the filtration of inflammatory mediators. The present study examines whether intermittent high-permeability hemofiltration has an immunomodulatory effect on polymorphonuclear leukocytes and mononuclear cells. METHODS: Twenty-eight septic patients with acute renal failure were randomly allocated to either receive intermittent high-permeability or conventional hemofiltration. Intermittent high-permeability hemofiltration consisted of a daily 12-hour course of high-permeability hemofiltration alternated by conventional hemofiltration. For high-permeability hemofiltration, a newly developed high-flux polyamide membrane (P2SH) with a nominal cutoff point of 60 kD was used. For conventional hemofiltration a high-flux polyamide hemofilter (Polyflux 11S, cutoff point 30 kD) was used. RESULTS: The polymorphonuclear leukocyte phagocytosis activity before starting hemofiltration was almost double the rate of healthy controls in both groups (p < 0.001). The phagocytosis rate decreased significantly during the course of intermittent high-permeability hemofiltration (p < 0.05), whereas the values remained unchanged in the conventional hemofiltration group. Incubation of high-permeability filtrates with blood from healthy donors resulted in a significant induction of phagocytosis (p < 0.001), whereas conventional filtrates had no phagocytosis-stimulating effects. In addition, incubation of healthy-donor mononuclear cells with high-permeability but not conventional filtrates resulted in a significant tumor necrosis factor alpha release (p < 0.001). CONCLUSIONS: Intermittent high-permeability hemofiltration is a novel extracorporeal elimination modality which exhibits immunomodulatory effects on leukocytes, attenuating polymorphonuclear neutrophil phagocytosis. Further studies are necessary to elucidate whether these effects translate in a clinical improvement in patients suffering from sepsis.