View clinical trials related to NAFLD.
Filter by:This was a double-blind, randomized, placebo-controlled clinical study aiming to assess the effect of a food for special medical purposes with functional release containing calcium butyrate, zinc gluconate and vitamin D3 on liver steatosis in individuals with NAFLD and metabolic syndrome
The goal of this cross-sectional observational study is to to perform a thorough characterization of the quantitative and qualitative differences in peripheral blood cells, and circulating factors (proteins, metabolites, lipids, extracellular vesicles) in different stages of several metabolic diseases (diabetes, obesity, non-alcoholic fatty liver disease) that share common pathophysiological mechanisms and in comparison with adult healthy controls. The main question[s] it aims to answer are: - Which are the quantitative (number and concentration) and qualtitative (characteristics, functional assays) differences in platelets in patients with metabolic diseases vs subjects without metabolic diseases - Which are the quantitative (number and concentration) and qualtitative (characteristics, functional assays) differences in leucocytes or circulating molecules in patients with metabolic diseases vs subjects without metabolic diseases
The study in question is an interventional study with nutritional intervention. the aim of the study is to evaluate whether a diet enriched with tomatoes can have favorable effects on: - specific aspects associated with NAFLD, such as the degree of hepatic steatosis and fibrosis; - circulating levels of molecules correlated with the degree of generalized and hepatic inflammation and the blood concentrations of metabolic and cardiovascular risk factors associated with abdominal obesity; - intestinal barrier; - body composition; - intestinal microbiota; - symptoms of IBS (irritable bowel syndrome) in patients with NAFLD.
Cirrhotic cardiomyopathy is seen as a blunted contractile responsiveness to stress, and/or altered diastolic relaxation with electrophysiological abnormalities, in absence of known cardiac disease. Left ventricular diastolic dysfunction (LVDD) is associated with risk of hepatorenal syndrome (HRS) , septic shock. , heart failure in the perioperative period following liver transplantation, and after trans-jugular intrahepatic portosystemic shunt (TIPS) insertion . The echocardiographic E/e' ratio is a predictor of survival in LVDD, with multiple studies, including prospective data from our Centre. The inability of the heart to cope with stress or sepsis induced circulatory failure is a key concept of the increased mortality risk due to LVDD. In view of the metabolic syndrome and diabetes epidemic and an increasing number of patients being diagnosed with non-alcoholic fatty liver disease, there is increased risk of developing cardiac dysfunction due to multiple comorbidities including coronary artery disease, hypertensive heart disease, cirrhotic cardiomyopathy, which are contributors to overall cardiovascular risk of mortality.
Non-alcoholic fatty liver disease (NAFLD) is the most common cause of chronic liver disease, ranging from pure steatosis to non-alcoholic steatohepatitis and ultimately to liver cirrhosis. In order to study the association between NAFLD and nephrolithiasis while minimizing the confounding effect of metabolic syndrome, we investigated the impact of different degrees of NAFLD severity on potential risk factors for stone formation.
This study will validate recently developed Magnetic Resonance Imaging (MRI) and Ultrasound (US) based methods for liver fat quantification in children with obesity and healthy range of body mass index (BMI).
Continue development of previously established methods to further validate candidate biomarkers that can discriminate steatosis from NASH and separately stage fibrosis from blood. The first assessment is to conduct test method verification to expand sample size to several hundred samples through whole genome sequencing methods. The second assessment is focused on biomarker validation by comparing targeted sequencing from patient plasma. Several sub- assessments will be conducted to support overall biomarker development efforts.
With NAFLD fast rising its ranks in becoming a major non communicable disease in India and across the globe, this study aims at primary prevention of the condition. NAFLD is a spectrum of diseases characterised by the deposition of fat within hepatocytes and is a precursor of liver inflammation. Global estimates peg the prevalence to be around 30 to 40%, but there are not many studies which have documented the prevalence in India. With the epidemiological transition, the cases of NAFLD are also on a rise as metabolic syndrome is an important risk factor. It is apparent that the westernized way of our lifestyle especially the junk food culture comprising of super portions of loads of calories, sugars and salts is the main driver of this nutritional pandemic. The traditional diets in India were rich in fruits and vegetables, low in simple carbohydrates and high in fibre. Cereals are the main source of calories in any diet, forming the base of the food pyramid. Managing our cereals from being refined to the more complex ones being rich in fibre, protein and good quality fat could be a major player in the whole game of dietary modifications not just therapeutically but also prophylactically. Hence our therapeutic focus should be in increasing the consumption of cereals that are not only high in fibre, low in carbohydrates but also that have the potential to modulate the intestinal bacterial ecology to a more favourable type thus helping in intensifying the effects of overall dietary modifications. Gut microbiota is currently explored for its role in NAFLD and there are gaps in knowledge which preclude having therapeutic strategies through its modulation. Millets, which were once considered to be poor man's diet are now becoming a part of the plate more frequently, especially for its unique nutritive content, with increased fiber, low carbohydrates, high protein and good quality fats. The processing methods may alter glycemic responses. Thus, the present study is proposed to look into the effect of millet based diets in reduction of hepatic steatosis and the resultant alterations in the gut microbiota .
The study conducted a health survey among Thai adults in 2022 and found a significant increase in obesity and nonalcoholic fatty liver disease (NAFLD), leading to metabolic-associated steatotic liver disease (MASLD). The prevalence of NAFLD was 19.7%, with higher rates in individuals with metabolic syndrome and diabetes. MASLD is associated with insulin resistance and genetic polymorphisms, particularly the patatin like phospholipase domain containing 3-rs738409 variant. Additionally, physical activity was inversely related to liver disease risk, with higher step counts associated with reduced incidence of NAFLD and liver-related mortality. The study aims to investigate the impact of dietary advice and pedometer use on physical activity levels and health outcomes in MASLD patients over 24 weeks.
Nonalcoholic fatty liver disease (NAFLD) is globally the leading cause of liver disease and frequently progresses to cirrhosis and liver cancer. The identification of effective drugs is the main unmet clinical need. Changes in liver histones methylation accompanies the development and progression of NAFLD. Our preliminary data demonstrate that inactivation of the methyltransferases SUV420H1/2 in hepatocytes protects mice against NAFLD. In this project we propose to examine the relevance of these findings by evaluating the impact of genetic deletion of hepatic SUV420H1/2 in mice fed a steatogenic diet. To further evaluate the potential for clinical translation of these results, we will next 1) evaluate the expression of SUV420H1/2 in human liver transcriptomic data and 2) analyze the impact of genetic variations on disease outcomes in population-based cohorts; 3) test an innovative therapeutic approach based on hepatocyte-targeted antisense oligonucleotides downregulating SUV420H1/2 in human liver organoids/assembloids.