View clinical trials related to Alcoholic Hepatitis.
Filter by:Alcoholic hepatitis (AH) is the most severe form of acute alcohol-related liver disease. Maddrey's discriminant function (mDF) >32 defines the severe form of AH, which is associated with a high mortality. Corticosteroid therapy (CS) represents the main medical treatment that may reduce short-term mortality. Lille score at day 7 assesses the therapeutic response to steroid therapy. At present, no parameters able to predict the response to steroid therapy have been highlighted. The mDF depends mainly on prothrombin time (PT). Aim of the present study was to evaluate if the PT value could predict the response to CS in severe AH (sAH).
Alcoholic hepatitis is related to very high mortality rate. About 40% of the patients 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 have 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 these 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 acute 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 4 weeks of NAC plus G-CSF in patient with severe alcoholic hepatitis. Therefore the investigators plan to study the safety and efficacy of combination therapy of G-CSF and 4 weeks of NAC in the patients with alcoholic hepatitis.
This is a randomized, double-blind, placebo-controlled, phase 2b clinical Trial evaluating Safety and Efficacy of DUR-928 (an experimental medication) in Patients with Alcoholic Hepatitis (AH).
Drinking large amount of alcohol can cause damage to the liver. If the liver is severely injured by alcohol it can become very inflamed and this condition is called alcoholic hepatitis. Alcoholic hepatitis can be life threatening. There is no cure for alcoholic hepatitis. It is known that stop drinking and have good nutrition can help the liver to recover. Infections are very common for people who suffer from alcoholic hepatitis. Sometimes these infection can be very severe. It is not always possible to find out where the infection is coming from. But the bacteria living in the bowel may move to other organs causing these infections and an illness like alcoholic hepatitis can cause "bad bacteria" to take over from "good bacteria" in the gut. This study wants to understand the changes in the bacteria in the bowel of people who have an acute inflammation of the liver cause by alcohol (alcoholic hepatitis). The investigators will take stool samples from patients admitted in the hospital with alcoholic hepatitis. The investigators will run tests on the stools that can find out which bacteria live in the bowel. Its is expected to find these bacteria to be different from the ones living in the bowel of healthy people. The investigators are interested to see if these bacteria change once the patients are given good nutrition using a small tube from the nose to the stomach. This type of nutrition is used routinely to help improve the liver in severe alcoholic hepatitis. The investigators will take some more stool sample from these patients after the nutrition through the tube has started to check how the bacteria change with nutrition. Better tools to check the bacteria in the bowel are now available so this can help the investigators to understand better if changing bacteria in the bowel can help recovery in alcoholic hepatitis.
Liver biopsy would be done by Endoscopic Ultrasound using Acquire needle.
The pathogenesis of the alcoholic liver disease (ALD) is a complex interplay of various etiopathological factors other than direct alcohol toxicity. These factors include inflammation & oxidative stress, dysbiosis, intestinal hyperpermeability, and endotoxemia. Dietary fats not only improve nutritional status in ALD but specific properties of saturated fats (SF) have the potential to favourably modulate these causative factors. This project has two parts, in the animal study 10 groups of murine model of alcoholic hepatitis (AH) would be given SF in the form of Desi Ghee and in the human study patients with AH would be randomized into two groups, one with SF ( Desi Ghee) and the other with usual unsaturated fat (cooking oil). In all effect of SF on gut microbiota, hepatic steatosis, TLR-4 expression, serum adiponectin, endotoxin levels, intestinal tight junction proteins and inflammatory markers in murine models of AH, along with hepatic morbidity & lipid profile, in patients with ALD would be studied.
This multicenter, randomized, double blinded, placebo-controlled clinical trial is focused on novel treatments for severe alcoholic hepatitis (AH), a life-threatening stage of alcoholic liver injury that has a short-term mortality rate much higher than that of other liver diseases. The primary objective of the study is to determine the clinical efficacy and safety of Anakinra (plus zinc) compared to the current standard medical treatment consisting of prednisone in participants with clinically severe AH. Key secondary objectives broadly are as follows: (a) to evaluate the use of biomarkers to assess disease severity and treatment response; and (b) to develop novel endpoints to overcome the limitations of current assessment strategies for severe AH.
The proposed study is An Open-Label, Dose Escalation Study to Assess the Safety, and Pharmacodynamics (PD) signals of DUR 928 in Patients with AH. DUR-928 will be administered in 100 mL 5% dextrose or 0.9% sodium chloride by slow intravenous infusion over 2 hrs (50mL/h) until entire dose is given at Day 1 and Day 4. If a patient meets the hospital discharge criteria prior to the 2nd dose, the patient will receive only one dose of DUR-928 instead of 2 doses.
The purpose of this research study is to test the safety, tolerability, and effectiveness of Vitamin C (ascorbic acid) intravenous infusion when used to treat alcoholic hepatitis (inflammation of the liver from heavy alcohol use) and sepsis (life-threatening complication of an infection).
In Mexico, alcoholic liver disease is the fourth cause of mortality (INEGI). Patients with severe alcoholic hepatitis have a high mortality at 28 days and 6 months, patients receiving standard therapy with prednisone that are non responders (Lille> 0.45) have a survival of 53.3 ± 5.1 % to 28 days. At present, there is not a completely effective treatment for non responders patients, with a high mortality, so it is necessary to look for other therapeutic strategies. The omega-5 fatty acid (punicic acid) has been considered a powerful antioxidant, it is an agonist of PPAR gamma, has been shown to reduce lipid peroxidation, and restore levels of antioxidant enzymes such as superoxide dismutase (SOD), catalase and glutathione peroxidase. It has also been shown to inhibit the expression of proinflammatory cytokines (such as IL6, IL8, IL23, IL12 and TNFalpha) through PPAR and modulation delta. The objective of this study is to evaluate the effect of Omega 5 fatty acid on inflammatory markers and antioxidant-oxidant balance markers in patients with severe alcoholic hepatitis treated with prednisone. HYPOTHESIS. Omega 5 fatty acid being a PPARgamma agonist reduces lipid peroxidation and protein damage, restoring reduced glutathione levels, as well as decreasing proinflammatory cytokines, in patients with Severe Alcoholic Hepatitis treated with prednisone and supplementation with fatty acid Omega 5.