Removal of asymmetric dimethylarginine during artificial liver support using fractionated plasma separation and adsorption.

OBJECTIVE: Asymmetric dimethylarginine (ADMA) is the most potent endogenous nitric oxide synthase inhibitor. Elevated ADMA levels have been linked to increased mortality in different patient populations. Key regulation of ADMA levels mainly takes place in the liver. Hence, ADMA is elevated in liver disease. There is no specific pharmacological treatment to lower the elevated ADMA levels. Hemodialysis is of limited efficiency in removing ADMA as it is highly protein bound. Prometheus is an extracorporeal liver support system which allows the removal of protein-bound toxins. We assessed the efficiency of the Prometheus system in reducing high ADMA levels in patients with liver failure. MATERIAL AND METHODS: We studied nine patients with acute-on-chronic liver failure and concomitant renal failure already necessitating hemodialysis. Seven patients needed intensive care treatment. Two consecutive sessions of Prometheus therapy of each 4 h were performed in all patients. ADMA and its structural isomer symmetrical dimethylarginine (SDMA) were determined using liquid chromatography-mass spectrometry. RESULTS: ADMA levels correlated to model for end stage liver disease (MELD) score (r(s) = 0.62; p < 0.0001). Before Prometheus was started, levels of ADMA and SDMA were elevated (1.36 +/- 0.5 micromol/l and 1.90 +/- 0.4 micromol/l, respectively). During Prometheus treatments, plasma levels of ADMA dropped by a mean 25% (p < 0.0001) and SDMA levels by 22% (p < 0.0001). However, there was a significant rebound of ADMA levels between the two therapy sessions (p < 0.01). CONCLUSIONS: This study shows for the first time that plasma levels of ADMA can be effectively lowered by an artificial liver support system (Prometheus). Effective elimination of ADMA might explain some of the beneficial clinical effects of these systems in patients with liver failure.

Efficacy and safety of anticoagulation with heparin versus heparin plus epoprostenol in patients undergoing extracorporeal liver support with Prometheus.

Anticoagulation for extracorporeal liver support is delicate due to underlying coagulation disorders in patients with liver failure and to the associated elevated bleeding risk. To date, there has been no detailed report on anticoagulation issues in patients treated with Prometheus, a device based on the principle of fractionated plasma separation and adsorption. We studied 17 patients from two centers treated with Prometheus, comparing standard anticoagulation with heparin (15 treatments) and a combination of heparin and the synthetic prostacyclin epoprostenol (22 treatments). Standard coagulation tests, proteins C and S, and thrombin-antithrombin (TAT) complex were determined, and adverse events were recorded. All but two treatments could be completed as scheduled, although filter exchange due to filter clotting was required in 24% of the treatments. Three out of 17 patients developed severe bleeding complications within 24 h of treatment. There were no overt thrombotic events. Addition of epoprostenol neither reduced coagulation-related adverse events nor improved standard coagulation parameters. Protein C, but not protein S, showed a significant reduction (23 +/- 18%) after Prometheus treatments, but levels rebounded to baseline within 18 h. TAT levels--a measure for activation of coagulation--were only altered by Prometheus in patients where TAT was already elevated before treatment. In conclusion, anticoagulation of Prometheus with heparin is feasible but still associated with a relatively high frequency of filter clotting and a considerable risk of severe bleeding in this high-risk patient population. As addition of epoprostenol did not prove beneficial, other strategies, such as regional anticoagulation with citrate, should be further evaluated.

Changes in plasma amino acids during extracorporeal liver support by fractionated plasma separation and adsorption.

In patients with liver failure, amino acid dysbalance is common and associated with hepatic encephalopathy. Prometheus is a newly designed extracorporeal liver support system based upon fractionated plasma separation and adsorption (FPSA). We evaluated the influence of FPSA on plasma amino acid patterns in patients with liver failure and hepatic encephalopathy. We studied nine patients with acute-on-chronic liver failure, hepatic encephalopathy, and concomitant renal failure. A single session of FPSA therapy for 5 +/- 1 h was performed in all patients. Twenty-six different plasma amino acids were measured by high-performance liquid chromatography before and after FPSA treatment. Total amino acids as well as Fischer index were calculated. Additionally, a variety of clinical and biochemical parameters were assessed. Before FPSA was started, plasma levels of most amino acids were elevated. Plasma ammonia levels correlated with glutamine levels (P < 0.04). During FPSA, plasma levels of nearly all amino acids significantly decreased except for branched-chain amino acids. The Fischer index improved without reaching statistical significance. FPSA therapy tends to normalize plasma amino acids in patients with combined liver and renal failure. This may contribute to positive pathophysiologic effects, especially on hepatic encephalopathy. However, the clinical significance of these findings needs to be further evaluated.

Removal selectivity of Prometheus: a new extracorporeal liver support device.

AIM: To evaluate whether treatment with the Prometheus reg system significantly affects cytokines, coagulation factors and other plasma proteins. METHODS: We studied nine patients with acute-on-chronic liver failure and accompanying renal failure. Prometheus reg therapy was performed on 2 consecutive days for up to 6 h in all patients. Several biochemical parameters and blood counts were assessed at regular time points during Prometheus reg treatment. RESULTS: We observed a significant decrease of both protein-bound (e.g. bile acids) and water-soluble (e.g. ammonia) substances after Prometheus reg therapy. Even though leukocytes increased during treatment (P<0.01), we found no significant changes of C-reactive protein, interleukin-6, and tumor necrosis factor-alpha plasma levels (all P>0.5). Further, antithrombin 3, factor II and factor V plasma levels did not decrease during Prometheus reg therapy (all P>0.5), and the INR remained unchanged (P=0.4). Plasma levels of total protein, albumin, and fibrinogen were also not altered during Prometheus reg treatment (all P>0.5). Finally, platelet count did not change significantly during therapy (P=0.6). CONCLUSION: Despite significant removal of protein-bound and water-soluble substances, Prometheus reg therapy did not affect the level of cytokines, coagulation factors or other plasma proteins. Thus, the filters and adsorbers used in the system are highly effective and specific for water-soluble substances and toxins bound to the albumin fraction.

The Prometheus device for extracorporeal support of combined liver and renal failure.

BACKGROUND/AIMS: Prometheus is a newly developed extracorporeal liver support system that combines removal of albumin-bound substances (adsorption on resin adsorbers) and water-soluble substances (diffusion during high-flux hemodialysis). Therefore, it is a promising treatment option for patients with hepatorenal syndrome (HRS). METHODS: We studied 10 patients with HRS in a prospective clinical study. All patients underwent 2 consecutive Prometheus treatments. A variety of clinical and biochemical parameters were assessed. RESULTS: Prometheus treatment was uncomplicated and safe. A statistically significant improvement of serum creatinine and urea concentrations as well as blood pH was observed after Prometheus treatment. Furthermore, liver detoxification was supported by a significant decrease of serum levels of conjugated bilirubin, bile acids and ammonia. CONCLUSIONS: Prometheus is a safe treatment for patients with HRS. Both, albumin-bound and water-soluble substances were effectively removed. Controlled studies will evaluate the effect of this new treatment option on survival in patients with HRS.

Efficacy and cardiovascular tolerability of extended dialysis in critically ill patients: a randomized controlled study.

BACKGROUND: Extended dialysis is an increasingly used modality of renal replacement therapy that theoretically offers advantages of both intermittent and continuous therapies in the intensive care unit (ICU). METHODS: We randomly treated 39 ventilated critically ill patients with oliguric acute renal failure with either continuous venovenous hemofiltration (CVVH; n = 19; age, 50.1 +/- 3.2 years; Acute Physiology and Chronic Health Assessment II [APACHE II] score, 32.3 +/- 1.2; 79% sepsis) and a substitution fluid rate of at least 30 mL/kg/h for 24 hours or with extended dialysis for 12 hours (n = 20; age, 50.8 +/- 3.6 years; APACHE II score, 33.6 +/- 1.0; 85% sepsis). The latter was performed using an easy-to-handle, single-pass, batch dialysis system. All hemodynamic parameters were monitored invasively by means of an indwelling arterial catheter. RESULTS: Average mean arterial blood pressure, heart rate, cardiac output, systemic vascular resistance, and catecholamine dose were not significantly different in both therapies. Urea reduction rate was similar with extended dialysis compared with CVVH therapy (53% +/- 2% versus 52% +/- 3%; P = not significant) despite an average rate of substitution fluid with the latter of 3.2 +/- 0.1 L/h. This was corroborated by the finding of similar amounts of urea eliminated in the collected spent total hemofiltration and dialysis fluid. Correction of acidosis was accomplished faster with extended dialysis than CVVH, and the amount of heparin used was significantly lower with extended dialysis (P < 0.01). CONCLUSION: Extended dialysis combines excellent detoxification with cardiovascular tolerability, even in severely ill patients in the ICU. The technically simple dialysis system used offers flexibility of treatment time.

Prometheus--a new extracorporeal system for the treatment of liver failure.

BACKGROUND/AIMS: Extracorporeal detoxification systems for supportive therapy of liver failure have recently gained much interest. We herein report results from the first clinical application of Prometheus, a new liver support system in which albumin-bound substances are directly removed from blood by special adsorber. In a simultaneous step, high-flux hemodialysis is performed. We assessed safety, adsorber efficiency and clinical efficacy of the Prometheus system. METHODS: Eleven patients with acute-on-chronic liver failure and accompanying renal failure were treated with Prometheus on 2 consecutive days for >4 h. RESULTS: Prometheus treatment significantly improved serum levels of conjugated bilirubin, bile acids, ammonia, cholinesterase, creatinine, urea and blood pH. There were no significant changes in hemoglobin and platelet levels, whereas leucocytes increased without signs of systemic infection. No treatment-related complications except a blood pressure drop in two patients with systemic infection were noted. In one patient (Child-Pugh score: 15) Prometheus treatment could not be completed due to onset of uncontrolled bleeding 16 h after dialysis. CONCLUSIONS: Prometheus is a safe supportive therapy for patients with liver failure. A significant improvement of the biochemical milieu was observed already after two treatments. Prospective controlled studies with the Prometheus system are necessary to evaluate hard clinical end-points.