View clinical trials related to NAFLD.
Filter by:The primary objective of this trial is to assess the effects of online app weight loss programs on liver health in obese adults.
Numerous studies have established the role of nutrition on obesity and its related metabolic diseases, which together affect a billion individuals worldwide. Evidence indicate that meal timing regulates numerous metabolic processes suggesting that meal time manipulation may be a simple intervention against obesity and its metabolic diseases. Time-restricted eating (TRE) is a dietary manipulation that involves restricting food intake to 6-10 h/day with no energy intake the rest of the day. In rodents, TRE significantly decreases hepatic steatosis and dyslipidemia, while it supports a healthier hepatic cellular content even without caloric restriction, potentially by alternating activation of nutrient sensing mechanisms and effects on circadian oscillations. However, an understanding of the effect of TRE on liver health in people is not clear. Accordingly, we will conduct a randomized controlled trial in people with overweight/obesity and hepatic steatosis to determine the effect of 9 h TRE for 12 weeks, on key metabolic outcomes in liver health: 1) intrahepatic triglyceride content using magnetic resonance imaging; 2) de novo lipogenesis during fasting and postprandial conditions using administration of deuterated water in conjunction with mathematical modeling. The proposed study will enable us to determine the effect of meal timing on metabolic function in people with NAFLD.
There is no known cure or regulatory agency approved drug therapy for nonalcoholic fatty liver disease (NAFLD), the leading cause of liver disease worldwide, and its progressive type, NASH. This places increased importance on using exercise to treat NAFLD. While physical activity is recommended for all with NAFLD, how to best prescribe exercise as a specific treatment remains unknown, including what dose of exercise is most effective.
COVID-19 is currently the leading public health problem, associated with a high risk of complications and death in risk groups of patients. Non-alcoholic fatty liver disease (NAFLD) is the most common liver disease with a prevalence of 30% in the Western population and is also recognized as an independent risk factor for the development of severe COVID-19. In the pathogenesis of COVID-19, the key role is played by the hyperreactivity of the immune response, the so-called cytokine storm leading to the development of severe forms of pneumonia, acute respiratory and multiorgan failure. The aim of this study is to investigate the clinical course, outcomes, and profile of inflammatory response in patients with COVID-19 and NAFLD.
This randomized clinical trial aims to compare the effect of the pioglitazone and SGLT2 inhibitor combination on liver fat mass, as compared to either drug used alone, with or without background medical therapy of metformin and/or DDP4 inhibitors.
In the absence of excessive alcohol consumption, increased levels of fat in the liver (>5%) are diagnosed as non-alcoholic fatty liver (NAFL). It has been shown that NAFL is strongly associated with impairments in metabolic health such as hepatic and whole-body insulin resistance. Insulin resistance is seen as the earliest hallmark in the development of type 2 diabetes. Insulin has two main effects on the liver: suppressing endogenous glucose production (EGP) and increasing glucose uptake. While the former has been extensively studied and is known to be impaired in NAFL, no studies have yet examined whether insulin-stimulated hepatic glucose uptake is affected by NAFL. Recent methodological developments allow us to visualize and quantify glucose uptake in any given tissue using dynamic Positron Emission Tomography (PET) with 18Fluorinated glucose tracer (FDG) during insulin stimulation. In the present study, we will in a first instance optimize the insulin-stimulated whole-body PET protocol and apply the dose as reported in the literature 4 megabequerels per kg of body weight (MBq/kg) (±8 mSv) in the first three subjects. It will then be evaluated whether the dose can be decreased in the remaining measurements. Another twelve individuals will then undergo the optimized dynamic PET protocol to assess insulin-stimulated hepatic glucose together with whole-body glucose uptake measures. Liver fat content and composition will be assessed by proton magnetic resonance spectroscopy (1H-MRS). Fasted De Novo Lipogenesis (DNL) will also be measured by deuterated water. Additionally, a two-step clamp will be performed to measure whole-body insulin sensitivity and insulin-stimulated suppression of EGP. The identification of the contributing factors to insulin resistance during the development of NAFL is crucial in order to develop more effective strategies for the prevention and treatment of metabolic disorders.
The main objective of this cohort study is to determine genetic, clinical biologic and metabolic factors associated with patient heterogeneity in regards to severity of NAFLD at diagnosis as well as during the clinical course. - at diagnosis, with the aim to better characterize patients of different severity and improve our understanding of clinical and histological heterogeneity at diagnosis - during the clinical course to better understand and predict disease progression in terms notably of fibrosis progression and progression to cirrhosis
The liver is a key organ in metabolism and contributes to T2DM development and insulin resistance via unclear mechanisms that may involve liver fat accumulation, inflammatory signals, and immune cells are proposed to play an important role in the pathogenesis of both NAFLD and T2DM.
Find out how bariatric endoscopy will influence the clinical course of non-alcoholic fatty liver disease.
Non-alcoholic fatty liver disease (NAFLD) is a common complication of obesity which can progress to deadly complications like end-stage liver disease and hepatocellular carcinoma. In the wake of the obesity epidemic, NAFLD is becoming the main etiology of liver transplantation in the US. Currently, there are no FDA approved pharmacological treatments for NAFLD. Weight loss through lifestyle modifications, pharmacotherapy and bariatric surgery can be effective strategies for the management of NAFLD. Even though substantial weight loss and improvement in NAFLD can be achieved with bariatric surgery, only a small proportion of patients with obesity undergo surgery. Very-low calorie diets (VLCD) are replacement meals manufactured to substitute natural foods and limited total intake of 800-960 kcal in divided meals. Very low-calorie diets can produce substantial weight loss of 10% over 2 to 3 months. We hypothesize that VLCD reduce liver steatosis and, fibrosis measured non-invasively with transient elastography. Our main aim is #1 to assess the effect of VLCD on liver fatty infiltration and fibrosis. We also have three exploratory aims exploring novel pathogenic factors that mediate the improvement of NAFLD by VLCD: #2 assess the effect of VLCD on micro RNAs (miRs) associated with pathophysiology of NAFLD: #3 assess the effect of VLCD on changes of salivary and fecal microbiome in the setting of NAFLD: #4 to determine the effect of VLCD on platelet function. This pilot project will produce preliminary data for the development of a larger grant application to study the efficacy of VLCD in the management of NAFLD. Furthermore, it will potentially identify factors that mediate improvement of NAFLD after VLCD. We will treat 10 subjects with obesity and NAFLD for 8 weeks with VLCD or lower calorie diet (control group) and obtain transient elastography before and after the interventions along with other measurements of interest. Our project may have significant impact by establishing VLCD as a clinically effective option for the improvement of liver steatosis and fibrosis in patients with obesity and NAFLD ineligible or without access to bariatric surgery.