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115 active trials for Non Alcoholic Fatty Liver Disease

Sulforaphane Supplementation Study

Non-alcoholic fatty liver disease (NAFLD) is increasing in the population, and is associated with heart disease and diabetes. At present there are no licensed drugs for treatment of NAFLD, therefore changes in diet and increased physical activity leading to decreased body fatness is the recommended management/treatment strategy. However, these are difficult to achieve and maintain for many individuals. A potential compound gaining interest in regards the treatment/prevention of NAFLD is sulforaphane, which is found in vegetables such as Broccoli. Animal studies suggest supplementing with sulforaphane can increase fat oxidation. This increased "fat burning" may result in lower levels of fat in the liver and overall in the body. The researchers will ask participants to undertake an intervention phase which will involve consuming two sulforaphane tablets a day for approximately 3 weeks. Participants will be asked to maintain all other aspects of their lifestyle throughout the intervention phase. The researchers will measure and compare participants whole-body and liver fat oxidation in response to a standardised test meal before and after the intervention phase by taking blood and breath samples. The researchers will also measure the amount of fat in participants liver and heart using a non-invasive technique known as magnetic resonance spectroscopy (MRS) before and after the intervention.

Start: January 2020

Effect of Empagliflozin on Liver Fat in Non-diabetic Patients

Non-alcoholic fatty liver disease (NAFLD) is a global epidemic with a prevalence of 25%. Currently therapies for NAFLD patients without diabetes mellitus (DM) are limited, and are associated with various adverse side effects. Sodium-glucose cotransporter type-2 (SGLT2) inhibitors can reduce hepatic fat content in patients with DM. However, the role of SGLT2 inhibitors in NAFLD patients without DM has not been investigated. Magnetic resonance imaging-derived proton density fat fraction (MRI-PDFF) and liver stiffness measurement (LSM) are non-invasive methods to diagnose hepatic steatosis and fibrosis/cirrhosis, respectively. The investigators propose a double-blind, randomized, placebo-controlled trial to compare the effects of empagliflozin (a type of SLGT2 inhibitors) versus placebo (in a 1:1 ratio) in reducing hepatic fat content as measured by MRI-PDFF in NAFLD patients without DM. A total of 98 adult patients will be randomly sampled from the liver clinic in our local hospital. Empagliflozin 10mg daily will be given to the treatment arm. The placebo pill will be manufactured to be identical in appearance to the study drug. Eligible subjects will be followed up until week 52, and will undergo clinical, anthropometric and laboratory assessments (including liver function test and fasting blood) at baseline, week 6, 12, 26, 40 and 52. They will undergo LSM at baseline, week 26 and 52, and MRI-PDFF at baseline and week 52. The primary outcome will be a difference in change of liver fat content (measured by MRI-PDFF) at week 52 from baseline between the two groups. The study results will determine whether SGLT2 inhibitors can reduce hepatic steatosis in NAFLD patients without DM.

Start: January 2021

Prebiotic Fibre Supplementation and Gut Microbiota in Non-alcoholic Fatty Liver Disease

Non-alcoholic fatty liver disease (NAFLD) is a condition where accumulation of fat in the liver leads to metabolic dysfunction. Currently there are no approved treatments for NAFLD. Part of the metabolic dysfunction may arise through changes in the gut microbiota. Prebiotic fibres have beneficial effects on glucose tolerance, body weight, and gut microbiota; therefore they may have potential as part of a dietary strategy for NAFLD treatment.

Start: May 2015

Assessment of Fatty Liver With Thermo-acoustic Device

The study will evaluate the accuracy of hepatic steatosis estimation by thermo-acoustic ultrasound with estimation by MRI-PDFF (Proton Density Fat Fraction) . It will also evaluate the sensitivity of this device in the diagnosis of fatty liver.

Start: May 2021

Single Ascending Dose of AMG 609 in Participants With Non-alcoholic Fatty Liver Disease

This study aims to assess the safety and tolerability of AMG 609 when administered subcutaneously as single doses in participants with non-alcoholic fatty liver disease (NAFLD) and to assess change in liver fat (expansion cohort only).

Start: May 2021

Non-Alcoholic Fatty Liver Disease, the HEpatic Response to Oral Glucose, and the Effect of Semaglutide (NAFLD HEROES)

Background: In non-alcoholic fatty liver disease (NAFLD), fat accumulates in the liver and can cause damage. Researchers want to learn what causes the damage NAFLD, and to see if a medication can help. Objective: To find out how the liver in people with NAFLD responds to feeding, and how this relates to their response to the drug semaglutide. Eligibility: People with NAFLD and healthy volunteers ages 18 and older Design: Participants will be screened with: Medical history Physical exam Blood tests Imaging: A machine will take pictures of the participant s body. Within 2-8 weeks of enrollment, participants will stay in the clinic for several days. This includes: Blood, urine, heart, and imaging tests For NAFLD participants only: A needle-like device will remove a small biopsy of the liver and fatty tissue. Participants will be alone in a special room for 5 hours. They will breathe through a tube under the nostrils. They will have blood drawn several times. The baseline visit concludes participation for healthy volunteers but NAFLD participants will contine. About 6 weeks after discharge, participants will stay in the clinic again and repeat the tests. They will get their first semaglutide dose by injection. Participants will have visits weeks 1, 2, 4, 8, 12, 16, 20, and 24 of treatment. Visits include blood tests. Participants will inject semaglutide once a week at home. At week 30, participants will stay in the clinic again and repeat the tests. Participants will have a final visit 12 weeks after stopping treatment. This includes blood and urine tests. ...

Start: July 2019

Effect of Fatty Liver Disease on Bone Density

Non Alcohlic Fatty Liver (NAFLD) is a spectrum of diseases that ranges from accumulation of fat in the liver (Hepatosteatosis) that may be accompanied by inflammation (Steatohepatitis) to necrosis, fibrosis and even cirrhosis resembling alcoholic hepatitis in the absence of alcoholic abuse (Pardee et al., 2012). It has been estimated that the global prevalence of NAFLD is as high as one billion. In the United States, NAFLD is estimated to be the most common cause of chronic liver disease, affecting between 80 and 100 million individuals, among whom nearly 25% progress to NASH (Loomba et al., 2013). In general, the prevalence of NAFLD has increased over the last 20 years. The Middle East and South America have the highest NAFLD prevalence at 31% and 32% respectively with the lowest prevalence in Africa at 13.5% (Younossi et al., 2016). Liver biopsy (LB) is still the standard test of NAFLD diagnosis and the presence of early liver fibrosis. However, histologic lesions are not evenly distributed throughout the liver. A sampling error is the biggest limitation in the diagnosis of NAFLD by LB with inflammatory lesions and ballooning degeneration potentially resulting in misdiagnoses and staging inaccuracies (Lee et al., 2016). To overcome these limitations, several non-invasive markers have been used instead of liver biopsy. These methods are either laboratory markers or imaging modalities. Controlled attenuation parameter (CAP) is a new technology based on the principle of the ultrasonic attenuation of transient elastography depending on the viscosity [fat] of the medium [liver] and the distance of propagation of the ultrasonic signals into the liver, providing a useful method for the quantitative detection of liver fat content and is considered a better assessment method for hepatic steatosis. Compared with ultrasound, this technology improves the sensitivity and specificity for the diagnosis of fatty liver and can be used for universal screening, diagnosis, and follow-up in NAFLD patients (Sasso et al., 2016). NAFLD is known to be closely associated with metabolic conditions, including insulin resistance, abdominal obesity, dyslipidaemia and type 2 diabetes, and is thus regarded as the hepatic manifestation of the metabolic syndrome (Ballestri., 2016). In recent epidemiological studies, NAFLD was shown to be connected with diseases that are usually not dependent on obesity, such as sarcopenia and osteoporosis (Poggiogalle et al., 2017). Osteoporosis is becoming a public health problem all over the world. Disability resulting from low-energy fractures, e.g: hip or vertebral fractures, is the major concern for early detection and treatment. It is estimated that osteoporosis affects 200 million women worldwide (Kanis et al., 2007). Liver is the source of many proteins and is the regulator of several pathways involving bone metabolism; one of the most well-known of all is vitamin D metabolism pathway. Considering the role of liver in bone metabolism, the association between NAFLD and bone abnormalities is not surprising especially with substantial supporting evidences in recent years (Eshraghian et al., 2017). Besides its role in the calcium and bone metabolism, vitamin D may also exert pleiotropic effects in many tissues. NAFLD patients were reported to have a marked reduction in serum 25(OH) vitamin D when compared with controls (Yilmaz et al., 2011). In adults, bone is constantly being remodeled, first being broken down (bone resorption) and then being rebuilt (bone formation). The resorption and reformation of bone is important for repair of microfractures and to allow modification of structure in response to stress and other biomechanical forces. Bone formation is normally tightly coupled to bone resorption, so that bone mass does not change. Bone diseases occur when formation and resorption are uncoupled. Several assays are available that measure bone turnover markers (BTMs). These assays measure collagen breakdown products and other molecules released from osteoclasts and osteoblasts during the process of bone resorption and formation. Markers that are specific to bone formation include bone-specific alkaline phosphatase (BSAP), osteocalcin, and N-terminal propeptide of type I procollagen (PINP); markers specific to bone resorption include N-terminal telopeptide of type I collagen (NTX), C-terminal telopeptide of type I collagen (CTX), and pyridinoline cross-links (Rosen et al., 2019).

Start: May 2021

Effects of High-Intensity Interval Training Exercise in Adolescents With Hepatosteatosis

This is a research study about how short-term exercise intervention affects adolescents with a disease called non-alcoholic fatty liver disease (NAFLD).

Start: April 2021

Alternate Day Fasting Combined and NAFLD for the Treatment of Non-alcoholic Fatty Liver Disease (NAFLD)

Approximately 65% of obese individuals have non-alcoholic fatty liver disease (NAFLD), and this condition is strongly related to the development of insulin resistance and diabetes. Innovative lifestyle strategies to treat NAFLD are critically needed. The proposed research will demonstrate that alternate day fasting (ADF) combined with exercise is an effective non-pharmacological therapy to help obese prediabetic individuals with NAFLD reduce fatty liver and prevent progression of prediabetes to diabetes.

Start: September 2019

Influence of the Diversity and Composition of the Microbiota in the Development of Pediatric Fatty Liver

The objectives of the present study are: 1) to identify the intestinal and salivary microbiota associated with the presence and severity of hepatic steatosis in children (Study I: case-control study), and 2) to develop a personalized 12-week intervention program based on diet and exercise to examine its effects on the diversity and composition of the microbiota in children with hepatic steatosis (Study II: intervention study)

Start: November 2020

Growth Hormone Releasing Hormone Analog to Improve Nonalcoholic Fatty Liver Disease and Associated Cardiovascular Risk

Nonalcoholic fatty liver disease (NAFLD) is common in individuals with obesity and is a significant threat to public health, because it can lead to impaired liver function and liver failure. Growth hormone is a hormone produced in the pituitary gland that helps regulate metabolism and growth. Individuals with obesity, on average, secrete less growth hormone than individuals without obesity. There are data to suggest that growth hormone may help to reduce the amount of fat in the liver, and may also reduce inflammation in the liver, both of which would be helpful to individuals with NAFLD. The purpose of this study is to investigate whether treatment with a drug called tesamorelin, which is a growth hormone releasing hormone analogue, will decrease liver fat and improve liver inflammation and scarring in obese individuals with NAFLD.

Start: January 2019

Pediatric Liver Fat Quantification (LFQ) Phase 2 Pilot Study

This clinical study will involve performing a series of medical imaging procedures of the abdomen using both ultrasound and MRI modalities in subjects at risk for or already diagnosed with Nonalcoholic Fatty Liver Disease (NAFLD). The primary objective of this clinical study is to evaluate the clinical feasibility of an investigational ultrasound technique for quantifying liver fat by comparing specific ultrasound-derived biomarkers with the liver fat percentage obtained from MRI Proton Density Fat Fraction (MRI-PDFF) measurements. All subjects enrolled in this study will undergo one investigational abdominal ultrasound examination using the Philips EPIQ Ultrasound System and one MRI PDFF examination according to the clinical standard of care.

Start: March 2021

Vitamin E and DHA-EE on NAFLD - Randomized, Double-Blind, Placebo-Controlled, Parallel-Group Clinical Trial (PUVENAFLD)

Multicenter, randomized, double-blinded, placebo-controlled clinical trial is focused on novel treatments for non-alcoholic fatty liver disease (NAFLD), the most common cause of chronic liver disease. The primary objective of the study is to determine the clinical efficacy and safety of Vitamin E [(all-rac)-?-tocopheryl acetate] and Omega-3 fatty acid (DHA EE) compared to placebo on reducing liver fat content in participants with NAFLD. There is currently no approved drug treatment for NAFLD or NASH. While several new targets are being evaluated, they are not sufficiently powered to provide definitive data. There is, therefore, a need for well-designed, appropriately powered efficacy (phase 2) trials to define the utility of newer therapies for NAFLD. The combination of Vitamin E and DHA may provide optimal benefit for patients with NAFLD due to their associated mechanisms of action, namely Vitamin E's antioxidant action, preventing lipid oxidation of long-chain fatty acids such as DHA and thus preventing the propagation of free radicals and ROS.

Start: January 2020

Early Vascular Ageing in the YOUth

This is a single-center observational study on adolescents to determine predictors of the early steps of the formation of atherosclerosis and to quantify their influence on Intima-Media-Thickness of the carotid artery and the aorta and on the Pulse-Wave Velocity. A long-term follow-up by means of record linkage is furthermore planned to evaluate the effect of early atherosclerosis and the cardiovascular risk profile on future morbidity with a special focus cardio- and cerebrovascular events.

Start: February 2021

Accuracy of Imaging Techniques in Diagnosing Steatohepatitis and Fibrosis in NAFLD Patients

Non-alcoholic fatty liver disease (NAFLD) is a highly prevalent condition, and when fatty liver is associated with inflammation and hepatocellular injury (steatohepatitis), it can lead to fibrosis, cirrhosis, liver failure and hepatocellular carcinoma. Liver biopsy is the gold standard for NAFLD assessment but has several drawbacks. Several drugs for NASH are now in phase 2-3 trials, and if medical treatments become available, non-invasive tools to identify patients who may benefit from a therapeutic intervention will be strongly needed. Some imaging methods have shown promising potential in fibrosis and NASH diagnosis. This study aims to evaluate the diagnostic accuracy of non-invasive imaging methods, including ultrasound (US) and Magnetic Resonance (MR) techniques, in diagnosing NASH and fibrosis in patients with or at high risk of NAFLD, using liver biopsy as the reference standard. Consecutive patients with a clinical indication for liver biopsy assessment of NAFLD are enrolled in this non-inferiority study. They undergo both a liver US and a multiparametric unenhanced liver MR examination. As reference standard, histological diagnosis of fibrosis and steatohepatitis made according to the fatty liver inhibition of progression (FLIP) algorithm is used. Sensitivity and specificity of imaging parameters alone or in different combinations will be calculated with the aim of finding one or more tests with at least 90% sensitivity/specificity compared to liver biopsy.

Start: January 2019

Prognostic Significance of Fatty Liver Disease in Bariatric Patients

Prospective non-randomized intervention case control study on patients with a BMI > 35. The intervention group/cases (n=600) is comprised of bariatric patients who undergo bariatric surgery and the control group (n=600) of age, weight and comorbidity matched patients who choose not to undergo bariatric surgery. The overall aim is to examine prevalence of the spectrum of fatty liver disease (NAFLD) in these patients and the prognostic significance of NAFLD.

Start: August 2018

Non-invasive Ultrasound Diagnosis of Chronic Liver Diseases in Hepatology Consultation

Early screening and monitoring of chronic liver diseases in hepatology practice has become crucial. To achieve this goal, hepatology clinics need simple and available tools at the point-of-care to perform disease severity assessment. The objective of this study is to assess the performance of a new non-invasive ultrasound-based system for the assessment of liver fibrosis and steatosis severity, via ultrasound biomarkers such as tissue stiffness (correlated to fibrosis severity) and ultrasound tissue attenuation (correlated to steatosis extent).

Start: May 2021

Plant Stanols and Liver Inflammation in Overweight and Obese Children

Obesity is associated with a variety of co-morbidities. Children with obesity are more likely to have risk factors associated with cardiovascular diseases (CVD) and CVD risk markers (e.g. hypertension, elevated serum cholesterol, and type 2 diabetes mellitus), but also with organ specific pathologies such as a non-alcoholic fatty liver disease (NAFLD). A recent meta-analysis has shown that the prevalence of NAFLD in obese pediatric populations is approximately 35%, compared to approximately 8% in general pediatric population, making it a very important health threat in these populations. Successful pharmacological interventions to treat or prevent NASH are not yet available and so far only weight loss has clear benefits. However, it is well known that sustained weight-loss is difficult to achieve on the longer-term. The investigators recently demonstrated in mice that plant sterol and stanol ester consumption inhibited the development of liver inflammation. Moreover, Javanmardi et al. recently demonstrated in a population of adult NAFLD patients, that plasma concentrations of Alanine Transaminase (ALT) were reduced after daily plant sterol consumption (1.6 g/d) for 6 weeks. In this study, the investigators propose to evaluate the effect of consuming soft chews enriched with plant stanol esters (3 grams/day) on ALT concentrations in children with overweight or (morbid) obesity who are at risk of developing NAFLD, in a randomized, placebo-controlled, double blinded study with an intervention period and follow-up period of 6 months. 52 overweight and obese children with elevated ALT concentrations (>39 U/L for boys and >33 U/L for girls) will be included. All children will be randomly allocated to consume control or plant stanol ester enriched soft chews on a daily basis for a period of 6 months. After 12 months there will be an additional blood sample to evaluate whether the 6 months intervention is still effective.

Start: March 2021

A Reduced-carbohydrate Diet High in Monounsaturated Fats in Type 2 Diabetes

Further studies are needed to establish the optimal diet for treating T2D. The investigators wishes to investigate whether a low carbohydrate diet, high in monounsaturated fats (LCD) will affect cardiovascular function, metabolism and the liver. 135 participants with T2D, will be following either a LCD, or a regular diabetes diet (RDD) for 6 months. Measurements and investigations will be performed at baseline and after 6 months.

Start: November 2016

Cold-induced Brown Fat Activation and Hepatic Steatosis

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.

Start: January 2019