Robert A. F. M. Chamuleau

Extrahepatic portal vein thrombosis: aetiology and determinants of survival

BACKGROUND Malignancy, hypercoagulability, and conditions leading to decreased portal flow have been reported to contribute to the aetiology of extrahepatic portal vein thrombosis (EPVT). Mortality of patients with EPVT may be associated with these concurrent medical conditions or with manifestations of portal hypertension, such as variceal haemorrhage. PATIENTS AND METHODS To determine which variables have prognostic significance with respect to survival, we performed a retrospective study of 172 adult EPVT patients who were followed over the period 1984–1997 in eight university hospitals. RESULTS Mean follow up was 3.9 years (range 0.1–13.1). Overall survival was 70% (95% confidence interval (CI) 62–76%) at one year, 61% (95% CI, 52–67%) at five years, and 54% (95% CI, 45–62%) at 10 years. The one, five, and 10 year survival rates in the absence of cancer, cirrhosis, and mesenteric vein thrombosis were 95% (95% CI 87–98%), 89% (95% CI 78–94%), and 81% (95% CI 67–89%), respectively (n=83). Variables at diagnosis associated with reduced survival according to multivariate analysis were advanced age, malignancy, cirrhosis, mesenteric vein thrombosis, absence of abdominal inflammation, and serum levels of aminotransferase and albumin. The presence of variceal haemorrhage and myeloproliferative disorders did not influence survival. Only four patients died due to variceal haemorrhage and one due to complications of a portosystemic shunt procedure. CONCLUSION We conclude that mortality among patients with EPVT is related primarily to concurrent disorders leading to EPVT and not to complications of portal hypertension.

In vitro evaluation of a novel bioreactor based on an integral oxygenator and a spirally wound nonwoven polyester matrix for hepatocyte culture as small aggregates

BACKGROUND/AIMS The development of custom-made bioreactors for use as a bioartificial liver (BAL) is considered to be one of the last challenges on the road to successful temporary extracorporeal liver support therapy. We devised a novel bioreactor (patent pending) which allows individual perfusion of high density cultured hepatocytes with low diffusional gradients, thereby more closely resembling the conditions in the intact liver lobuli. METHODS The bioreactor consists of a spirally wound nonwoven polyester matrix, i.e. a sheet-shaped, three-dimensional framework for hepatocyte immobilization and aggregation, and of integrated hydrophobic hollow-fiber membranes for decentralized oxygen supply and CO2 removal. Medium (plasma in vivo) was perfused through the extrafiber space and therefore in direct hepatocyte contact. Various parameters were assessed over a period of 4 days including galactose elimination, urea synthesis, lidocaine elimination, lactate/pyruvate ratios, amino acid metabolism, pH, the last day being reserved exclusively for determination of protein secretion. RESULTS Microscopic examination of the hepatocytes revealed cytoarchitectural characteristics as found in vivo. The biochemical performance of the bioreactor remained stable over the investigated period. The urea synthesizing capacity of hepatocytes in the bioreactor was twice that of hepatocytes in monolayer cultures. Flow sensitive magnetic resonance imaging (MRI) revealed that the bioreactor construction ensured medium flow through all parts of the device irrespective of its size. CONCLUSIONS The novel bioreactor showed encouraging efficiency. The device is easy to manufacture with scale-up to the liver mass required for possible short-term support of patients in hepatic failure.

Clinical Application of Bioartificial Liver Support Systems

Objective:To review the present status of bioartificial liver (BAL) devices and their obtained clinical results. Background:Acute liver failure (ALF) is a disease with a high mortality. Standard therapy at present is liver transplantation. Liver transplantation is hampered by the increasing shortage of organ donors, resulting in high incidence of patients with ALF dying on the transplantation waiting list. Among a variety of liver assist therapies, BAL therapy is marked as the most promising solution to bridge ALF patients to liver transplantation or to liver regeneration, because several BAL systems showed significant survival improvement in animal ALF studies. Until today, clinical application of 11 different BAL systems has been reported. Methods:A literature review was performed using MEDLINE and additional library searches. Only BAL systems that have been used in a clinical trial were included in this review. Results:Eleven BAL systems found clinical application. Three systems were studied in a controlled trial, showing no significant survival benefits, in part due to the insufficient number of patients included. The other systems were studied in a phase I trial or during treatment of a single patient and all showed to be safe. Most BAL therapies resulted in improvement of clinical and biochemical parameters. Conclusions:Bioartificial liver therapy for bridging patients with ALF to liver transplantation or liver regeneration is promising. Its clinical value awaits further improvement of BAL devices, replacement of hepatocytes of animal origin by human hepatocytes, and assessment in controlled clinical trials.

Adenoviral overexpression of apolipoprotein A-V reduces serum levels of triglycerides and cholesterol in mice

Mice lacking ApoA-V, a novel HDL-associated apolipoprotein identified by our group and independently by Pennacchio et al. [Science 294 (2001) 169], were recently shown to be hypertriglyceridemic. To study the role of ApoA-V in triglyceride homeostasis, we compared lipid profiles in mice expressing normal and highly elevated levels of ApoA-V. For this purpose, adenoviral vectors expressing sense or antisense ApoA-V cDNA were constructed. Treatment of mice with sense adenoviral constructs resulted in circa 20-fold higher serum ApoA-V levels compared with mice injected with either PBS or antisense adenoviral constructs. ApoA-V overexpressing mice had markedly decreased (-70%) serum triglyceride levels caused primarily by lowered triglyceride content of the VLDL fraction. Furthermore, in these mice cholesterol levels were found to be lowered in all lipoprotein fractions with the largest mass decrease in the HDL fraction. This resulted in a 40% drop of serum cholesterol content. These findings suggest a role of ApoA-V in regulating levels of circulating triglycerides and cholesterol.

A systematic review on prognostic indicators of acute on chronic liver failure and their predictive value for mortality.

An early and proper diagnosis of acute on chronic liver failure (ACLF), together with the identification of indicators associated with disease severity is critical for outcome prediction and therapy.

A comparison of RIFLE with and without urine output criteria for acute kidney injury in critically ill patients.

IntroductionThe Risk, Injury, Failure, Loss, and End-Stage Renal Disease (RIFLE) is a consensus-based classification system for diagnosing acute kidney insufficiency (AKI), based on serum creatinine (SCr) and urine output criteria (RIFLESCr+UO). The urine output criteria, however, are frequently discarded and many studies in the literature applied only the SCr criteria (RIFLESCr). We diagnosed AKI using both RIFLE methods and compared the effects on time to AKI diagnosis, AKI incidence and AKI severity.MethodsThis was a prospective observational cohort study during four months in adult critically ill patients admitted to the ICU for at least 48 hours. During the first week patients were scored daily for AKI according to RIFLESCr+UO and RIFLESCr. We assessed urine output hourly and fluid balance daily. The baseline SCr was estimated if a recent pre-ICU admission SCr was unknown. Based on the two RIFLE methods for each patient we determined time to AKI diagnosis (AKI-0) and maximum RIFLE grade.ResultsWe studied 260 patients. A pre-ICU admission SCr was available in 101 (39%) patients. The two RIFLE methods resulted in statistically significantly different outcomes for incidence of AKI, diagnosis of AKI for individual patients, distribution of AKI-0 and distribution of the maximum RIFLE grade. Discarding the RIFLE urine criteria for AKI diagnosis significantly underestimated the presence and grade of AKI on admission and during the first ICU week (P < 0,001) and significantly delayed the diagnosis of AKI (P < 0.001). Based on RIFLESCr 45 patients had no AKI on admission but subsequently developed AKI. In 24 of these patients (53%) AKI would have been diagnosed at least one day earlier if the RIFLE urine criteria had been applied. Mortality rate in the AKI population was 38% based on RIFLESCr and 24% based on RIFLESCr+UO (P = 0.02).ConclusionsThe use of RIFLE without the urine criteria significantly underscores the incidence and grade of AKI, significantly delays the diagnosis of AKI and is associated with higher mortality.

Which Are the Right Cells to be Used in a Bioartificial Liver

Anno 2004 freshly isolated or cryopreserved porcine or human hepatocytes have been most frequently used as biocomponent in clinically applied bioartificial livers (BALs). Phase 1 studies of all biocomponent modalities showed safety, feasibility, and improvement of biochemical, neurological, and hemodynamic parameters. However, both the pilot-controlled clinical trial with C3A cells and the randomized larger clinical trial with cryopreserved porcine hepatocytes did not show significant improvement of survival by intention-to-treat analysis. Because of the xenotransplantation-related disadvantages of porcine cells and the shortage of primary human hepatocytes, other sources of biocomponents have to be explored. The future lies in the development of one or more human hepatocyte cell lines, which will have minimal immunogenicity, no risk of xeno-zoonosis, and the requested functionality and availability. Primary sources for the development of such human cell lines are liver-tumor-derived cell lines, immortalized fetal or adult hepatocytes, and stem cells of hepatic, hematopoietic, or embryonic origin. At present the most promising results for BAL application have been obtained by immortalization of human fetal liver cells by reconstitution of telomerase activity. However, in all cell types tested so far, the in vitro differentiation cannot be stimulated to such an extent that their functionality reaches that of primary human hepatocytes. More insight in differentiation-promoting factors and the influence of matrix and co-culture conditions is needed.

Functional activity of isolated pig hepatocytes attached to different extracellular matrix substrates. Implication for application of pig hepatocytes in a bioartificial liver

For the manufacture of a bioartificial liver for human application, large amounts of viable and active hepatocytes are needed. Pig hepatocytes are considered to be the best alternative to scarce human hepatocytes. In vitro hepatocyte functions have so far been tested under different circumstances, mainly with rat hepatocytes. Pig hepatocytes were isolated with a single two-step isolation procedure, resulting in a high yield of viable hepatocytes. The hepatocytes were tested for their ability to synthesise urea, to metabolise 7-ethoxycoumarin (cytochrome P450 activity), and to synthesise and secrete proteins. These activities of hepatocytes while attached to tissue culture plastic were compared to the activity of the cells attached to several extracellular matrix constituents: collagen I and IV, laminin, fibronectin, Engelbreth-Holm-Swarm Natrix and in the presence of Matrigel. With the exception of Matrigel, neither of the extracellular matrix substrates enhanced pig hepatocyte function compared to tissue culture plastic. However, relatively large amounts of murine proteins leak out of the Matrigel. The advisability of using Matrigel or other extracellular matrix proteins in a bioartificial liver loaded with pig hepatocytes is discussed.

Bridging a patient with acute liver failure to liver transplantation by the AMC-bioartificial liver

Recently a phase I clinical trial has been started in Italy to bridge patients with acute liver failure (ALF) to orthotopic liver transplantation (OLT) by the AMC-bioartificial liver (AMC-BAL). The AMC-BAL is charged with 10 × 109 viable primary porcine hepatocytes isolated from a specified pathogen-free (SPF) pig. Here we report a patient with ALF due to acute HBV infection. This patient was treated for 35 h by two AMC-BAL treatments and was bridged to OLT. There was improvement of biochemical and clinical parameters during the treatment. No severe adverse events were observed during treatment and follow-up of 15 months after hospital discharge. Possible porcine endogenous retrovirus (PERV) activity could not be detected in the patients blood or blood cells up to 12 months after treatment.

Evaluation of a novel bioartificial liver in rats with complete liver ischemia: treatment efficacy and species-specific α-GST detection to monitor hepatocyte viability

BACKGROUND/AIMS There is an urgent need for an effective bioartificial liver system to bridge patients with fulminant hepatic failure to liver transplantation or to regeneration of their own liver. Recently, we proposed a bioreactor with a novel design for use as a bioartificial liver (BAL). The reactor comprises a spirally wound nonwoven polyester fabric in which hepatocytes are cultured (40 x 10(6) cells/ml) as small aggregates and homogeneously distributed oxygenation tubing for decentralized oxygen supply and CO2 removal. The aims of this study were to evaluate the treatment efficacy of our original porcine hepatocyte-based BAL in rats with fulminant hepatic failure due to liver ischemia (LIS) and to monitor the viability of the porcine hepatocytes in the bioreactor during treatment. The latter aim is novel and was accomplished by applying a new species-specific enzyme immunoassay (EIA) for the determination of porcine alpha-glutathione S-transferase (alpha-GST), a marker for hepatocellular damage. METHODS Three experimental groups were studied: the first control group (LIS Control, n = 13) received a glucose infusion only; a second control group (LIS No-Cell-BAL, n = 8) received BAL treatment without cells; and the treated group (LIS Cell-BAL, n = 8) was connected to our BAL which had been seeded with 4.4 x 10(8) viable primary porcine hepatocytes. RESULTS/CONCLUSIONS In contrast to previous comparable studies, BAL treatment significantly improved survival time in recipients with LIS. In addition, the onset of hepatic encephalopathy was significantly delayed and the mean arterial blood pressure significantly improved. Significantly lower levels of ammonia and lactate in the LIS Cell-BAL group indicated that the porcine hepatocytes in the bioreactor were metabolically activity. Low pig alpha-GST levels suggested that our bioreactor was capable of maintaining hepatocyte viability during treatment. These results provide a rationale for a comparable study in LIS-pigs as a next step towards potential clinical application.