View clinical trials related to Fatty Liver.
Filter by:A randomized, multi-center study evaluating MET409 (50 mg) alone or in combination with empagliflozin (10 mg) for 12 weeks. Assignment to MET409 will be double-blind and placebo-controlled. Empagliflozin will be incorporated into two of the treatment arms in an open-label manner.
Non-alcoholic fatty liver disease (NAFLD) covers a spectrum from simple reversible hepatic steatosis to inflammation and fibrosis termed steatohepatitis (NASH) and cirrhosis. Accumulating evidence indicates that NAFLD is associated with development of heart failure, abnormal ventricular glucose and fatty acid (FA) utilisation and cardiac steatosis. The mechanisms behind why some subjects progress from NAFLD to NASH and the link between cardiac involvement and NAFLD are poorly understood, but must include altered cardiac and intrahepatic lipid handling. Investigators plan comprehensive kinetic studies of heart and liver FA uptake and oxidation, ventricular function and substrate utilisation, and hepatic triglyceride (TG) secretion in order to assess mechanisms governing cardiac and hepatic lipid and glucose trafficking in subjects with type 2 diabetes with and without NAFLD and NASH and the relationship with heart function. In addition, the investigators will assess skeletal muscle and adipose tissue enzyme activities, gene expression and protein concentrations in type 2 diabetic subjects to define mechanisms involved in the cross-talk between heart, liver, muscle and adipose tissues. Investigators will address these questions using tracer techniques (11Cpalmitate PET tracers and triglyceride (TG) tracers) to study cardiac and liver substrate trafficking, as well as MR spectroscopy, echocardiography, muscle and fat biopsies in combination with state-of-the art muscle and adipose tissue enzyme kinetics, gene- and protein expression. The overarching goals are to define abnormalities and differences between NAFLD and NASH in hepatic lipid (FA and TG) metabolism.
Subjects with biopsy-proven NASH will be randomly assigned in a 2:1 ratio to oral doses of namodenoson 25 mg every 12 hours or matching placebo every 12 hours for 36 weeks. Subjects will be evaluated regularly for safety, and efficacy biomarkers will be measured at Baseline and Weeks 6, 12, 24, and 36. At Week 36, all subjects will undergo liver biopsy.
Development of preclinical translational models for chronic liver tumors and diseases study, such as spheroids cultured in autologous medium and murine xenograft models to test the efficacy of new therapeutic strategies.
This non-randomized clinical trial was performed to clarify the effect of cigarette smoking reduction on liver function and some anthropocentric indices in smoker patients with non-alcoholic steatohepatitis.
This is an open-label extension to Study LPCN 1144-18-002. The study is aimed at evaluating the safety and tolerability of LPCN 1144 in adult men with NASH.
The main purpose of this study is to compare the effectiveness of various non-invasive elastography techniques at determining liver stiffness measures in human subjects. Specifically, the investigators are comparing MRE and FibroScan to Vibroelastography (VE, Liver Incytes System). These techniques are used to measure stiffness in the liver.
The purpose of this research study is to determine whether the study drug, atorvastatin (Lipitor®), is safe and effective in improving the features of NASH.
Nonalcoholic fatty liver disease (NAFLD) has evolved to represent the most common cause of chronic liver disease globally. Today, NAFLD is a leading indication for liver transplantation and a major etiology for hepatocellular carcinoma (HCC) in the United States. NAFLD is characterized by the excess accumulation of lipids within the liver and ranges from isolated steatosis to nonalcoholic steatohepatitis (NASH), which is characterized by the presence of hepatic necroinflammation, hepatocyte ballooning and fibrosis progression. Currently, liver biopsy remains the gold standard for the diagnosis of various chronic liver diseases, and for determining the severity of liver injury, inflammation, and fibrosis stage. However, this procedure is invasive, prone to complications such as bleeding and is associated with sampling variability and limited representation of the whole liver. Other limitations include, the difficulty to monitor liver injury progression over time and underestimation of disease severity. Despite intensive research, currently available non-invasive blood tests are not sufficiently sensitive or specific and are therefore of limited use. Blood biomarkers might provide significant advances in the diagnosis and monitoring of disease progression and regression in clinical settings. Recently, liquid biopsy has emerged as a potential, less invasive, alternative to liver biopsy. In fact, it addresses several unmet clinical needs, including sensitivity, specificity, the determination of prognoses, and the prediction of therapeutic responses.
To test the specific research questions, healthy men and age-matched healthy premenopausal females will be enrolled. Subjects will undergo cardiac magnetic resonance imaging and spectroscopy (MRI/MRS) to evaluate cardiac morphology/function and fat metabolism. To acutely elevate myocardial triglyceride content, subjects will be asked to abstain from eating for 2 days (reproducibly causes a significant and physiological increase in myocardial fat deposition, transiently). Subjects will be allowed water and/or an isotonic saline solution in order to maintain hydration status. After screening, subjects will meet with the research coordinator or an investigator for a discussion, with opportunity for questions, before applicable consent forms are obtained. The subject will be screened for metal in or on their body and claustrophobia using a standard MR screening form. A venous blood sample will be taken for measurement of metabolic health, circulating hormones, and systemic inflammation. Imaging will include cine imaging for global morphology and function, tissue tagging for regional tissue deformation, spectroscopy for fat quantification. After baseline images of the heart are obtained, the subject will be asked to squeeze a MR-safe handgrip dynamometer at 30% of their maximum while images of the heart are obtained. Blood pressure will also be measured at rest and during stress. Each MRI will take approximately 90-120 minutes. Aim 1 will test the hypothesis that cardiac steatosis induced left ventricular dysfunction is sexually dimorphic, by comparing age-matched men and premenopausal women before and after 48 of fasting. Subjects will complete the MRI/MRS protocol described above before and after the fasting intervention. Aim 2 will test the hypothesis that estrogen is protective against cardiac steatosis-induced dysfunction, by suppressing ovarian sex hormones with a GnRH antagonist and repeating the fasting studies with and without estrogen add-back. 30 female subjects will be treated with GnRH antagonist and repeat the 48 hour fasting intervention and cardiac MRI/MRS protocol. 15 of the subjects will receive estrogen add-back using a transdermal patch, the other 15 subjects will receive a placebo patch. Aim 3 will test whether plasma and myocardial fatty acid composition is sexually dimorphic, by performing comprehensive plasma and myocardial lipidomics assessment.