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Liver Support (liver + support)

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Medical Sciences100%

Terms modified by Liver Support

  • liver support system
    		•

    Selected Abstracts

    Changes in Plasma Amino Acids During Extracorporeal Liver Support by Fractionated Plasma Separation and Adsorption

    ARTIFICIAL ORGANS, Issue 2 2010
    Kinan Rifai
    Abstract 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. [source]

    Efficacy and Safety of Anticoagulation With Heparin Versus Heparin Plus Epoprostenol in Patients Undergoing Extracorporeal Liver Support With Prometheus

    ARTIFICIAL ORGANS, Issue 1 2010
    Peter Krisper
    Abstract 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. [source]

    Hepatocyte Cell Lines as the Biological Component of Liver Support

    ARTIFICIAL ORGANS, Issue 7 2001
    Hugo O. Jauregui M.D. Guest Editor
    First page of article [source]

    Comparative Study of Bioartificial Liver Support and Plasma Exchange for Treatment of Pigs with Fulminant Hepatic Failure

    ARTIFICIAL ORGANS, Issue 4 2000
    Yukio Kamohara
    Abstract: Recently, bioartificial liver (BAL) treatment was reported to provide beneficial effects for patients with fulminant hepatic failure (FHF). Some success in experimental or clinical trials has been reported; however, the evaluation of BAL efficacy remains unclear, especially in comparison with other treatments for FHF. The purpose of this study was to compare the efficacy between BAL and plasma exchange (PE) in experimentally induced FHF in pigs. Pigs undergoing hepatic devascularization (HD) were placed into the following groups: no treatment (control; n = 6), BAL treatment (BAL; n = 5), and plasma exchange (PE; n = 5). Each treatment was initiated 6 h after HD and lasted for 4 h. BAL treatment significantly improved liver functions in FHF pigs. The decrease in cerebral perfusion pressure was also significantly suppressed in the pigs with BAL, and their survival time was prolonged compared with the results in pigs with PE. The effects of BAL outperform those of PE in the treatment of experimental FHF model. [source]

    Reversibly immortalized human hepatocytes: An eternal fountain of liver support?

    HEPATOLOGY, Issue 2 2000
    Chandan Guha M.D., Ph.D.
    No abstract is available for this article. [source]

    Hepatocyte progenitors in man and in rodents , multiple pathways, multiple candidates

    INTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY, Issue 1 2005
    Joanna Laurson
    Summary In severe injury, liver-cell progenitors may play a role in recovery, proliferating, and subsequently differentiating into mature liver cells. Identifying these progenitors has major therapeutic potential for ex vivo pharmaceutical testing, bioartificial liver support, tissue engineering and gene therapy protocols. Potential liver-cell progenitors have been identified from bone marrow, peripheral blood, cord blood, foetal liver, adult liver and embryonic stem cells. Differences and similarities are found among cells isolated from rodents and humans. This review will discuss identifying markers and differentiation potential in in vitro and in vivo models of these putative progenitors in both humans and rodents. [source]

    The effect of total plasma exchange on fulminant hepatic failure

    JOURNAL OF CLINICAL APHERESIS, Issue 2 2006
    M. Akdogan
    Total plasma exchange (TPE) corrects coagulopathy in patients with liver disease and removes hepatotoxins/cytokines. This improvement is transient but can be used as a bridge until an organ is identified for liver transplantation (LTx) or the liver itself regenerates. Our aim was to retrospectively assess the efficacy of TPE in fulminant hepatic failure (FHF) and its impact on liver function tests. Between 1995,2001, 39 patients with FHF who had undergone TPE were reviewed. FHF was defined according to the O'Grady criteria based on the duration of encephalopathy as well as jaundice. TPE was performed using the Cobe Spectra TPE (Gambro®) in Liver Intensive Care Unit, continued on a daily basis, until either adequate clinical response was achieved, the patient expired, or transplantation occurred. INR, PTT, Fibrinogen, ALT, AST, GGT, BUN, Ammonia, and Total Bilirubin were analyzed before and after TPE. Student's t -test and chi-square test and ANOVA were used for statistical analysis. Thirty-nine patients with FHF (31 females, 8 males with mean age of 32.3, range: 7,64) underwent TPE. Coagulopathy, hyperbilirubinemia, hyperammonemia were significantly improved (P < 0.05). Twenty-one patients survived (54%), 12 required LTx, and 18 patients (including one after LTx) expired. TPE was found to be significantly effective for correction of coagulopathy and improvement of liver tests. This intervention can be considered for temporary liver support until recovery or liver transplantation. J Clin Apheresis 2005. © 2005 Wiley-Liss, Inc. [source]

    MARS dialysis in decompensated alcoholic liver disease: A single-center experience

    LIVER TRANSPLANTATION, Issue 8 2007
    Birger Wolff
    Acute decompensation of chronically stable alcoholic liver disease (ALD) is the most common cause of terminal liver failure in developed countries. Molecular adsorbent recirculation system (MARS) is increasingly used as artificial liver support to facilitate spontaneous organ recovery. However, the experience to date and the evidence to justify this therapeutic strategy in acutely decompensated ALD are still insufficient. We report our clinical experience with MARS in 14 patients with acutely decompensated ALD (6 male subjects; median age [interquartile range], 51 [47-56] years; Child-Pugh score, 12 [10-13]; Acute Physiology and Chronic Health Evaluation (APACHE) II score, 20 [18-24]) and severely impaired liver function whose disease was unresponsive to conventional supportive care. At least 3 sessions were applied in any patient (48 sessions in total). Under MARS treatment, the following levels decreased: bilirubin (544 [489-604] to 242 [178-348] ,mol/L; P < 0.001), creatinine (212 [112-385] to 91 [66-210] ,mol/L; P = 0.002), cholestatic parameter gamma-glutamyl transpeptidase (5.9 [1.8-13.1] to 4.6 [1.8-8.3] ,mol/L) (P < 0.001), blood urea nitrogen (56 [32-91] to 34 [21-68] mmol/L; P = 0.044), and platelet count (176 [85-241] to 84 [31-145] Gpt/L; P = 0.004). In contrast, MARS failed to improve daily urine output (P = 0.846), ammonia levels (P = 0.340), or thromboplastin time (P = 0.775). Only 3 patients survived the hospital stay (mortality 78.6%). Although MARS improved laboratory parameters of hepatic detoxification and renal function in patients with acutely decompensated ALD, the patients' mortality remained unsatisfactorily high. Our experience does not support the indiscriminative use of MARS in acutely decompensated ALD without further controlled studies. Liver Transpl 13:1189,1192, 2007. © 2007 AASLD. [source]

    Hepatic tissue engineering for adjunct and temporary liver support: Critical technologies

    LIVER TRANSPLANTATION, Issue 11 2004
    Christina Chan
    The severe donor liver shortage, high cost, and complexity of orthotopic liver transplantation have prompted the search for alternative treatment strategies for end-stage liver disease, which would require less donor material, be cheaper, and less invasive. Hepatic tissue engineering encompasses several approaches to develop adjunct internal liver support methods, such as hepatocyte transplantation and implantable hepatocyte-based devices, as well as temporary extracorporeal liver support techniques, such as bioartificial liver assist devices. Many tissue engineered liver support systems have passed the "proof of principle" test in preclinical and clinical studies; however, they have not yet been found sufficiently reliably effective for routine clinical use. In this review we describe, from an engineering perspective, the progress and remaining challenges that must be resolved in order to develop the next generation of implantable and extracorporeal devices for adjunct or temporary liver assist. (Liver Transpl 2004;10:1331,1342.) [source]

    Efficacy and Safety of Anticoagulation With Heparin Versus Heparin Plus Epoprostenol in Patients Undergoing Extracorporeal Liver Support With Prometheus

    ARTIFICIAL ORGANS, Issue 1 2010
    Peter Krisper
    Abstract 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. [source]

    Evaluation of Liver Support Systems for Preclinical Testing by Animal Trials

    ARTIFICIAL ORGANS, Issue 10 2006
    Oleksandr Seleverstov
    Abstract:, In the present review, various animal models of acute liver failure are reviewed with respect to their suitability for evaluating liver support systems (LSS) according to envisaged modes of therapy. In order to increase the value of the preclinical testing of LSS, it would be advantageous to include more than one animal model in the evaluation program. It is possible to identify appropriate sets of models, which make a suitable test system for particular clinical applications. A standardization of evaluation methods between testing groups would also be beneficial to the field of liver support. [source]

    Clinical Experience with Molecular Adsorbent Recirculating System (MARS) in Patients with Drug-induced Liver Failure

    ARTIFICIAL ORGANS, Issue 5 2004
    Xin-min Zhou
    Abstract:, The molecular adsorbent recirculating system (MARS) is a novel extracorporeal technique for liver support. We report the clinical results in a group of fourteen patients with drug-induced liver failure. Fourteen patients, aged 22,83 years, with acute or subacute liver failure [mean Child,Turcotte,Pugh (CTP) score 11 (range 8,15)] due to the intake of various drugs (diet pill overdose,2; Chinese traditional medicine (CTM),4; antibiotic, paracetamol, tuberculostatic, or vasodilator abuse,8) were treated with one to seven sessions of MARS. Beneficial effects such as the improvement of encephalopathy and prothrombin activity, as well as a reduction of bilirubin and ammonia were recorded during MARS treatments. Thirteen out of fourteen patients survived the hospitalization (93%), and two of the discharged patients died during the follow-up of 6,12 months. The overall survival rate was about 79%. MARS therapy can contribute to the improved treatment of drug-induced liver failure patients. [source]