View clinical trials related to Hepatitis, Alcoholic.
Filter by:Inflammatory responses in response to alcohol have been identified as contributing to the development of alcoholic hepatitis. The inflammatory response including that to LippoPolySaccharide is known to lead to progression of alcoholic liver disease. In addition to the inflammatory response mitochondrial perturbations exist and redox homeostasis is altered in patients with alcoholic hepatitis. Though this is known there have been very few studies targeting mitochondrial function in Peripheral Blood Mononuclear Cells (PBMCs). We plan to collect 50 milliliters of blood from healthy control patients so that we can compare the data to that of patients with alcoholic hepatitis and those who are heavy drinkers without liver disease. In addition to studying mitochondrial function we will investigate cytokine response, as well as fatty acid metabolism, glucose, and insulin measurements
The patients of Severe Alcoholic Hepatitis (SAH) will be included in study based on inclusion and exclusion criteria. The patients will be then randomized in 3 groups for therapy. They will receive either steroid or Granulocyte-Colony Stimulating Factor (GCSF) or both. They will be followed for atleast 90 days for improvements in symptoms and various predefined parameters. Primary outcome will be improvement in survival at 90 Days. Patients will be monitored at every follow up for disease progression and complications of therapy. The study results will be analyzed for differences in survival rate and complications in different groups to propose new therapeutic guideline in SAH patients.
The purpose of this research study is to create a clinical database and bio-repository. To do this, we will obtain blood, urine, saliva, and stool samples (e.g., biological samples) and personal health information from you to use in future research studies related to alcoholic hepatitis or other diseases. Part of your blood sample will be used to extract your DNA. DNA is the genetic material that gives us unique characteristics. We are doing this research study because we are trying to find out more about how and why illnesses related to alcoholic hepatitis or other diseases occur in people. To do this, we will study the biological samples and personal health information from healthy and sick people. A "biological sample" is usually blood, but can be any body fluid. "Personal Health Information" includes such items as your name, age, gender, race, and/or your medical information. It can also include data from measurements and tests that you had while participating in another research study or that were done during the course of your regular medical care or doctor visits.
Given the severe consequences of alcohol relapse following liver transplantation for alcoholic hepatitis (AH-LT), it is critical to accurately identify alcohol use and implement alcohol interventions early in the post-transplant period to optimize patient outcomes. The proposed randomized clinical trial will examine the implementation and effects of integrated, person- and computer-delivered alcohol treatment compared to standard care on alcohol use (assessed by self-report and biomarker), mood, quality of life and survival following AH-LT. Predictors of 12-month post-transplant alcohol outcomes will be explored to allow future improved tailoring and targeting of these treatments.
Alcoholic liver disease has become one of the foremost causes of chronic liver disease across the world, and a cause of considerable morbidity and mortality. Alcoholic steatohepatitis is an entity in this broad spectrum, with severe alcoholic hepatitis transitioning to acute on chronic liver failure carrying a one month mortality of as high as 20 to 50%. The current management guidelines for severe alcoholic hepatitis show benefit with prolonged alcohol abstinence, nutritional support, the use of corticosteroids, pentoxifylline or N-acetyl cysteine (NAC) and early liver transplantation. However, major studies and meta-analyses have demonstrated that these interventions, with the exception of early liver transplantation, do not improve mortality rates to the level of statistical significance. Owing to the high short term mortality associated with severe alcoholic hepatitis, the inadequacy of a treatment that could significantly impact this short term mortality, and the limited applicability of early liver transplantation, a study on newer modalities of treatment is warranted. The role that human gut microbiota plays in health and disease is receiving considerable attention. Targeting intestinal dysbiosis, a phenomenon found to be intricately linked with the causation of alcoholic hepatitis, could provide insights into novel therapeutic strategies. Fecal microbiota transplantation is a novel approach that has gained widespread acceptance in in the management of recurrent severe Clostridium difficile infection. It's role is also being studied in other diseases where an association with gut dysbiosis has been found, such as in inflammatory bowel disease and irritable bowel syndrome. The role of FMT has also been studied in liver diseases such as non-alcoholic fatty liver disease (NAFLD), liver cirrhosis and primary sclerosing cholangitis. In this process, a diseased recipient is transferred fecal material containing the microflora of a healthy individual. It limits the colonization of pathogens, inducing colonization resistance, affects microbiota composition in the gut, as well as metabolism in the microbial pathogens. FMT helps alleviate gut dysbiosis and restores gut microbial diversity. Our aim is to evaluate the role of FMT on short term survival and improvement in scores of prognostic significance (CTP, MELD, MELDNa, mDF) in patients with severe alcoholic hepatitis.
Alcoholic hepatitis (AH) is a florid presentation of alcoholic liver disease characterized by liver failure in the context of recent and heavy alcohol consumption. The condition carries a high fatality risk; patients with severe AH have a 30% mortality rate at 90 days after presentation. Currently there is no effective treatment for severe alcoholic hepatitis. Based on our current understanding of the disease pathogenesis IL-1 (interleukin) is a key mediator of hepatic inflammation responsible for metabolic disturbances, fibrogenesis stellate cell activation and consequently portal hypertension. Canakinumab is a licensed monoclonal antibody inhibitor of IL-1 and may consequently reverse the adverse effects of the cytokine in patients with this disorder. Therefore, the main objective of the ISAIAH trial is to explore the potential benefits of the IL-1β antibody, Canakinumab (solution for injection), in the treatment of alcoholic hepatitis. ISAIAH is a multicentre, double blind, randomized (1:1), placebo controlled trial. The trial will follow patients up for 90 days and will be conducted in centres across the United Kingdom. Twenty-six patients will be recruited to each arm of the trial: total 52 patients.
Alcoholic hepatitis is related to very high mortality rate. About 40% of the patients are died within first 6 months after the detection of the clinical syndrome. Therefore, it is very essential for proper diagnosis and early treatment. In response to acute or chronic liver damage, bone marrow derived stem cells can spontaneously populate liver and differentiate into hepatic cells. Animal and human studies suggested that injured hepatocyte may be replaced by pluripotent bone marrow cells. However, this hepatocyte repopulation is highly dependent on varieties of liver injury and therapeutic conditions. The studies has suggested Granulocyte-colony stimulating factors (G-CSF) can regenerate hepatocyte by fusing with hematopoietic cells, thereby enhancing the liver histology and survival rate. G-CSF is a cytokine capable to regulate a number of functions in neutrophils. In three recent studies mobilization of bone marrow stem cells induced by G-CSF was observed in patients with alcoholic hepatitis. In two of this studies there was a survival benefit with the use of G-CSF. Therefore we plan to study the safety and efficacy of G-CSF in the patients with alcoholic hepatitis.
Approximately 50% of patients admitted for severe AH will have spontaneous improvement of liver function before initiation of therapy (ie decrease in mDF between hospital admission and initiation of steroids). These patients have a better prognosis than patients without spontaneous improvement of liver function. It has never been demonstrated that corticosteroids improve survival in severe AH patients with spontaneous improvement of liver function. Our hypothesis is that severe AH patients with spontaneous improvement of liver function represent a group who could most benefit from steroids
Recent data have suggested that monocyte oxidative burst defect is associated with the development of infection in patients with severe alcoholic hepatitis. One report found reduced 28 day mortality in patients treated with N-acetylcysteine combined with prednisolone when compared to prednisolone alone. The current study seeks to reveal whether the mechanism by which NAC reduces susceptibility to infection is through improvement of phagocyte oxidative burst.
Alcoholic hepatitis is related to very high mortality rate. About 40% of the patients are died within first 6 months after the detection of the clinical syndrome. Therefore, it is very essential for proper diagnosis and early treatment. In response to acute or chronic liver damage, bone marrow derived stem cells can spontaneously populate liver and differentiate into hepatic cells. Animal and human studies suggested that injured hepatocyte may be replaced by pluripotent bone marrow cells. However, this hepatocyte repopulation is highly dependent on varieties of liver injury and therapeutic conditions6. The studies has suggested Granulocyte-colony stimulating factors (G-CSF) can regenerate hepatocyte by fusing with hematopoietic cells, thereby enhancing the liver histology and survival rate. G-CSF is a cytokine capable to regulate a number of functions in neutrophils. In three recent studies mobilization of bone marrow stem cells induced by G-CSF was observed in patients with alcoholic hepatitis. In two of this studies there was a survival benefit with the use of G-CSF. Alcoholism leads to decrease in endogenous antioxidant potential. Alcoholic liver disease (ALD) patients show low endogenous antioxidants. Chronic ethanol consumption cause selective deficiency in the availability of reduced glutathione (GSH) in mitochondria has been reported. This is due to impaired functioning of GSH transporter from cytosol to mitochondrial matrix. The effect on glutathione replenishing potential by N-acetyl cysteine (NAC) can be used to reduce oxidative stress, which also has excellent safety profile. Therefore, NAC can be used for severe alcoholic hepatitis treatment due to its therapeutic potential factor. NAC also inhibit apoptosis and pro-inflammatory cytokine production. In a study high doses of intravenous N-acetyl cysteine therapy for 14 days conferred neither survival benefits nor early biological improvement in severe alcoholic hepatitis patients with adequate nutritional support.However, these results must be viewed with caution, since the study suffered from a lack of power. In a recent study, NAC and corticosteroids combination therapy benefits among patients with severe acute alcoholic hepatitis in 1 month survival, although the final outcome at 6 month survival was not improved. There are no studies on the use of combination therapy of NAC plus G-CSF in patient with severe alcoholic hepatitis. Therefore we plan to study the safety and efficacy of combination therapy of G-CSF and NAC in the patients with alcoholic hepatitis.