Autologous Bone Marrow Mesenchymal Stem Cells Transplantation Via Hepatic Artery in Patients With...
Liver CirrhosisThe purpose of this study is to investigate the efficacy of autologous bone marrow mesenchymal stem cells (MSCs) transplantation via hepatic artery in the treatment of liver cirrhosis. Liver function was monitored by serum examination. The levels of serum alanine aminotransferase (ALT), total bilirubin (TB), prothrombin time (PT) and albumin (ALB) were examined at pre-transplantation, and 3 days to 2 years post-transplantation. Child-Pugh scores and clinical symptoms were also observed simultaneously.
Bone Mesenchymal Stem Cell (BMSC) Transplantation in Liver Cirrhosis Via Portal Vein
Liver CirrhosisThe objective of this study is to evaluate the therapeutic efficacy of autologous bone marrow mesenchymal stem cells (BMSCs) transplantation via portal vein in patients with early and middle stage of liver cirrhosis on the basis of HBV infection. The evaluation of the efficacy includes the level of serum alanine aminotransferase (ALT), aspartate aminotransferase(AST), total bilirubin (TB),prothrombin time (PT), albumin (ALB), prealbumin(PA), precollagenⅢ(PCⅢ), collagenⅣ(Ⅳ-C), laminin(LN), hyaluronidase(HN), liver histological improvement before and 1 week to 1 year after transplantation. Child-Pugh scores and clinical symptoms were also observed simultaneously.
Autologous Bone Marrow Mononuclear Cells in Liver Cirrhosis
Liver Cirrhosis Due to Virus C Chronic HepatitisThis is a phase I clinical study to evaluate feasibility, safety and kinetics of cellular therapy with autologous bone marrow-derived mononuclear cells (BMMC) in patients with liver cirrhosis due to virus C hepatitis. Another aim is to study liver tissue changes induced by the BMMC presence. All the patients have moderate liver disfunction and will be submitted to a liver biopsy before BMMC injection. The cells will be labeled with 99mTc and infused through a peripheral vein. Scintigraphy will be performed 24 hours after infusion. Patients will be submitted to frequent clinical, laboratorial and image evaluation during a one-year follow-up. A second liver biopsy will be done in the 3rd month after infusion to check histological, cellular and molecular evolutive changes.
Breath Test to Assess Hepatic Metabolic Reserve and to Predict Hepatic Decompensation in Cirrhotics...
CirrhosisThe three objectives of this trial are: To demonstrate that a decline in hepatic metabolic function as measured by BreathID will correlate with changes in CTP and MELD scores in patients with cirrhosis. To determine the critical value of hepatic metabolic function as measured by BreathID will predict which patients are at risk to develop complications of cirrhosis. To determine the critical value of hepatic metabolic function as measured by BreathID will predict which patients are at risk for liver related mortality. The hypothesis is that the BreathID breath test will correlate to CTP and MELD scores, and that thresholds can be established that will help predict risk of complications of cirrhosis and mortality.
GCSF Therapy in Decompensated Cirrhosis - A Double Blinded RCT
Decompensated Cirrhosis of LiverCirrhosis of liver is a leading cause of morbidity and mortality worldwide. Complications like ascites, spontaneous bacterial peritonitis, variceal bleed, hepatic encephalopathy, hepatorenal syndrome (HRS) and hepatocellular carcinoma (HCC) portend a poor prognosis and further decreases survival in these patients. The major causes of cirrhosis include excessive alcohol consumption, viral hepatitis and non- alcoholic fatty liver disease. Currently the only definitive treatment option for cirrhosis is liver transplantation which is limited in its applicability due to donor shortage, exorbitant costs and lack of widespread availability. Moreover, it requires lifelong immunosuppression and has considerable long term side effects including chronic renal failure, post-transplant lymphoproliferative disease and cardiovascular complications. The ability of stem cells to differentiate into multiple cellular lineages makes one speculate that stem cells can be used for tissue repair and regeneration when tissue-resident stem cells become overwhelmed. It has been shown that in response to acute or chronic liver damage, bone marrow derived stem cells can spontaneously populate the liver and differentiate into hepatic cells, thereby contributing to hepatic regeneration. Thus, apart from hepatocytes and intrahepatic stem cells, bone marrow derived stem cells also participate in the liver regeneration process. Currently, there are two methods to mobilize stem cells from the bone marrow to the liver. One is administration of cytokines like granulocyte-colony stimulating factor (G-CSF) and the other is the isolation of stem cells from the marrow and their injection into the hepatic artery or portal vein after purification. The latter is probably more cumbersome and may be potentially risky due to the underlying coagulation abnormalities in cirrhotic patients. Improved liver histology and survival has been noted in patients with cirrhosis following mobilization of bone marrow stem cells by granulocyte-colony stimulating factor (G-CSF). Three recent studies have demonstrated G-CSF induced mobilization of bone marrow stem cells (CD34 cells) in peripheral blood and their subsequent increase in liver tissue and improved survival in patients with alcoholic hepatitis and ACLF. However, there is a paucity of data on whether G-CSF improves survival and prognosis in patients with decompensated cirrhosis. Verma, Singh et al have shown in an open label trial that there was significantly better 12 month transplant free survival in ( GCSF+ Growth hormone + standard medical therapy group ) and ( G CSF + standard medical therapy group ) as compared to standard medical therapy group alone. CD 34+ cells at day 6 of therapy increased as compared to baseline. There was also a significant decrease of clinical scores, improvement in nutrition, better control of ascites, reduction in liver stiffness, lesser episodes of infection as well as improvement in QOL scores in the treatment groups having G CSF as compared to baseline. In a recent study by Newsome et al, a multicentre, open label randomized phase 2 trial, patients were randomized to standard care, treatment with subcutaneous G CSF or treatment with G CSF for 5 days followed by leukaphersis and IV infusion of CD 133 positive haematopoietic stem cells. They did not find any difference in MELD score over time in all 3 treatment groups. Serious adverse effects were more common in the G CSF groups than in standard treatment group. In a study by Kedarisetty CK et al. a significantly larger proportion of patients with decompensated cirrhosis given a combination of G-CSF & Darbopoietin α survived for 12 months more than patients given only placebo ( 68% vs. 26.9%; P = 0.001 ). The combination therapy also reduced liver severity scores and sepsis to a greater extent than placebo. In view of the conflicting results of the above studies and no studies on the use of multiple courses of GCSF in patients with decompensated cirrhosis in a double blind manner, the present study was undertaken to assess the safety and efficacy of G-CSF in patients with decompensated cirrhosis in the form of a double blinded RCT.
Optimized Treatment of Peginterferon Alfa 2a/2b in Treatment Experienced Patients With HBV Related...
Hepatitis BLiver FibrosisCompared to nucleoside/nucleotide analogues, peginterferon alfa 2a/2b may has more therapeutic efficacy in hepatitis B surface antigen or e antigen seroconversion and anti-tumor occurrence in chronic hepatitis b patients. We design this study to investigate treatment of peginterferon alfa 2a/2b in anti-virus treatment experienced patients with HBV related liver fibrosis.
G-CSF in Decompensated Cirrhosis: an Open Label Trial
CirrhosisLiverGlobally, cirrhosis is the fifth commonest cause of mortality. Its natural history is typified by an initial, largely asymptomatic, "compensated" phase followed by "decompensation" due to complications of raised portal pressures and hepatocellular dysfunction. Currently the only definitive treatment option for cirrhosis is liver transplantation which is limited in its applicability due to donor shortage, exorbitant costs and lack of widespread availability. The need for long term immunosuppression and its attendant complications are a further drawback. The ability of stem cells to differentiate into multiple cellular lineages makes one speculate that they can be used for tissue repair and regeneration when tissue-resident stem cells become overwhelmed. Bone marrow derived stem cells have amazing plasticity. They can "home" to the liver in response to injury and help in liver regeneration by trans-differentiation, cell fusion and augmentation of tissue- resident stem cell mediated repair. Two methods are available for the mobilisation of stem cells from the bone marrow to the liver. One involves the administration of cytokines like granulocyte-colony stimulating factor (G-CSF) and the other is the isolation of stem cells from the marrow followed by their injection into the hepatic artery or portal vein after purification. The latter is probably more cumbersome and may be potentially risky due to the underlying coagulation abnormalities in cirrhotic patients . G-CSF has been shown to mobilise bone marrow stem cells and even increase survival in patients of severe alcoholic steatohepatitis and ACLF. There is conflicting evidence on the role of G-CSF in decompensated cirrhosis with some studies showing improved survival while others have shown a lack of clinical or biochemical benefit. Many of these studies have used a single course of G-CSF. Verma et al, in a recent study published in 2018, elegantly demonstrated the beneficial effect of multiple courses of G-CSF in improving mortality and transplant free survival in decompensated cirrhotics. The investigators too speculate that multiple cycles of G-CSF could result in better outcomes in decompensated cirrhosis by causing more prolonged and sustained stem cell homing to the liver. Thus, this study is being undertaken to further evaluate the safety and efficacy of multiple cycles of G-CSF in decompensated cirrhotics.
Safety and Efficacy of SHED for Decompensated Liver Cirrhosis
Liver CirrhosisThis study is an prospective, randomized control study. Patients with decompensated cirrhosis will be randomly assigned to receive 4 times of SHED treatment plus standard medical care(treatment)or standard medical care (control). The primary outcome is MELD-Na score. Secondary outcomes are Child-Pugh, liver function, life quality and survival.
Albumin for Management of Hypervolemic Hyponatremia (AlbuCAT)
Hyponatremia With Excess Extracellular Fluid VolumeCirrhosis1 moreresolution of hyponatremia, defined as an increase in serum sodium of more than 5 mEq/L with a final value > 130 mEq/L, maintained for at least 48 consecutive hours during the 10-day treatment period
Efficacy and Safety of Carvedilol in Cirrhosis Patients With Uncomplicated Ascites Without High...
Liver CirrhosisThe cumulative risk of refractory ascites is in the order of 20% within five years of the development of ascites. An elevated sinusoidal pressure is essential for the development of ascites, as fluid accumulation does not develop at portal pressure gradient below 8 mm Hg, and rising corrected sinusoidal pressure correlates with decreased 24-hour urinary excretion of sodium.More recently, it has been hypothesised that bacterial translocation associated with portal hypertension in cirrhosis and related pathogen-associated, molecular pattern activated innate immune responses lead to systemic inflammation.This is associated with vasodilatation as well as release of proinflammatory cytokines, reactive oxygen and nitrogen species, contributing to organ dysfunction.This activates sympathetic nervous system stimulating reabsorption of sodium in proximal,distal tubules, loop of Henle and collecting duct as well as the renin-angiotensin-aldosterone system, leading to sodium absorption from distal tubule and collecting duct.[5]Renal sodium retention and eventual free water clearance due to non-osmoticrelease of arginine-vasopressin and its action on V2 receptor in the collectingduct underlie the fluid retention associated with oedema and ascites in cirrhosis.The lowering of portal pressure using non selective beta blocker has also been shown to reduce the development of ascites, refractory ascites and hepatorenal syndrome.Furthermore, the effect of non slective beta blocker on intestinal permeability, bacterial translocation and inflammatory response has been proposed to mitigate the risk of developing spontaneous bacterial peritonitis.