View clinical trials related to Fatty Liver.
Filter by:This study aims to build capacity in India by: 1. Developing tailored protocol methodologies for research including technical capability in imaging (MRI/S protocols & customised software), dietary intervention delivery, dietary evaluation, and biochemical analyses, using available local resources in Kerala. 2. Training and enhancing imaging skills of clinical radiographers in Kerala for research studies 3. Training local professionals and researchers in skills necessary to design, deploy and evaluate diet/lifestyle interventions, including patient engagement, in Kerala. This study will deliver and evaluate a simple dietary intervention pilot study in the Kerala region in conjunction with local nutritionists, healthcare professionals and partner researchers at PHRI (Population Health and Research Institute, Trivandrum, Kerala, India).
In a retrospective study, 200 patients with non-alcoholic fatty liver disease, fatty liver hepatitis, and fatty liver fibrosis have been identified for pathological diagnosis of liver histology and exclusion of other liver diseases. Before the liver biopsy were performed, these patients should detect liver function, coagulation function, renal function, blood glucose, blood lipids, liver elasticity measurement and imaging indicators and results, and demographic data. To evaluate the diagnostic ability of the current non-invasive diagnostic model of NAFLD fibrosis and the adaptability of model indicators to the diagnosis of enrolled patients, and to correct the indicators, including discarding unsuitable indicators and incorporating new indicators, and adjusting the diagnostic score. Establish a non-invasive diagnostic model for liver fibrosis in Beijing based on NAFLD. In a prospective observational study, 100 patients without other liver diseases and ultrasound-tested fatty liver were enrolled, and histopathological diagnosis of liver were included in the study, and liver function, coagulation function, renal function, blood glucose, and non-invasive model analysis were detected. Blood lipids, liver elasticity measurements, and imaging indicators were examined and demographic data were collected. The non-invasive diagnostic model established by retrospective study was used to diagnose fibrosis and its staging, compared with histopathological diagnosis, and adjusted the index of non-invasive diagnostic model to further revise and improve the diagnostic efficacy of the diagnostic model. Long-term follow-up observations were performed in the prospective observation cohort. The liver function, coagulation function, renal function, blood glucose, blood lipids, liver elasticity and imaging examination were performed during the observation period, and the treatment events and the progress of the patients were recorded. To explore the correlation and predictive ability of noninvasive diagnostic models for long-term outcomes of disease. Finally, a model for predicting the outcome of progression of liver fibrosis in NAFLD was established.
Liver Diseases in pregnancy represents rare disorders and current data is derived primarily from single centres and retrospective cohorts. Moreover, the population prevalence of these diseases is low and to-date, it has proven difficult to generate reliable data at a patient level. This is a multi-center, prospective cohort study that will open at 3 centers within the UK; and 4 centers in the European Union. The investigators will aim to collect data and blood samples at various time points, for patients presenting with liver disease during pregnancy. The main rationale behind this study is to establish a platform that enables detailed review of the outcomes of these rare diseases; to help classify and stratify patients according to risk and develop interventional studies and care pathways to improve overall outcome.
Although the clinical relationship between NAFLD/NASH and cardiovascular (CV) risk is now well established, there is very little awareness of the hepatic disease and the way it may contribute to increased CV risk in patients seen in cardiology clinics for complications of coronary artery disease. Our clinical hypothesis is that NAFLD, possibly at a stage of advanced fibrosis, is common in patients with symptomatic coronary artery disease (CAD) and increases the risk of severe atherosclerotic lesions. The primary aim of this study is to determine (a) the prevalence and (b) the severity spectrum of NAFLD among patients with symptomatic coronary artery disease. The secondary aims are: to analyze the impact of the presence and the severity spectrum of NAFLD (steatosis, steatohepatitis and fibrosis) on the severity of CAD ; To determine the profile of NAFLD patients at risk to develop coronary lesions; To explore the mechanistic link between NAFLD and CAD beyond common metabolic risk factors.
In the recent years, research on brown adipose tissue (BAT) revealed that larger amounts as well as higher activity thereof are associated with a favourable metabolic phenotype. Longitudinal studies which applied recurrent cooling sessions demonstrated a high plasticity of BAT which significantly increased in size and activity during these studies. These changes were accompanied by improvements in body fat mass as well as insulin sensitivity. Non-alcoholic fatty liver disease (NAFLD) is estimated to advance to the primary cause of liver cirrhosis and hepatocellular carcinoma in the following years. Besides predisposing genetic and possibly nutritional factors, the insulin resistance syndrome and obesity are the main factors contributing to this excessive hepatic lipid accumulation. The aim of this study is to investigate whether BAT recruitment via cold-acclimation results in decreased hepatic lipid content in overweight/obese patients with NAFLD.
Obesity is associated with a variety of comorbidities, amongst which non-alcoholic fatty liver disease (NAFLD). A recent meta-analysis has shown that the prevalence of NAFLD in obese pediatric populations is around 35%, compared to approximately 8% in general pediatric populations, making it a very important health threat in these populations. The golden standard for diagnosis of NAFLD is liver biopsy. However, since liver biopsy is associated with a certain risk of morbidity and mortality, this method is inappropriate for screening large populations at-risk for developing NAFLD. Magnetic resonance spectroscopy has demonstrated excellent correlation with liver biopsy and the is the most accuratete non-invasive method to measure liver fat content in children. However, MRS is expensive and not available in all centres. A novel ultrasonographic measurement to quantitatively assess liver steatosis is the hepatorenal index (HRI). Previous studies have shown high sensitivity and specificity of the HRI, as compared to MRS and liver biopsy. However, this measurement has never been validated in children. In this study, the HRI will be compared to MRS in children with obesity, to validate the HRI and to determine cut-off points.
This research is to better understand the functional impairments of Dendritic cells (DCs) in chronic HBV infection. Aim is to determine if the virus is able to bind to the C-type lectin receptor (CLRs) of DCs to modulate their functions, also, to define the role of viral components and the molecular mechanisms of DCs modulation by HBV. This project should provide a better understanding of the mechanisms by which the immune response is altered by HBV and the immunological control of the infection, and thus propose new immunotherapeutic strategies based on the restoration of DC functions by releasing of virally-induced inhibitions, compromising the infection chronicity
Non-Alcoholic Fatty Liver Disease (NAFLD) is one of the most prevalent chronic liver diseases in Brazil and its treatment is still limited. Thus, this project aims to conduct a double-blind, controlled, randomized clinical trial to evaluate the effect of silymarin on laboratory markers and clinical evolution of adult patients with NAFLD treated at Edgard Santos Hospital, as well as identify the dietary pattern of these individuals.
This study aims to prospectively assess the repeatability and reproducibility of iron-corrected T1 (cT1), T2*, and hepatic proton density fat fraction (PDFF) quantification with multiparametric MRI using the LiverMultiScan™ (LMS, Perspectum Diagnostics, Oxford, UK) protocol across different field strengths, scanner manufacturers and models.
The purpose of this study is to examine whether a low carbohydrate diet decreases hepatic lipid content and changes hepatic mitochondrial flux in humans.