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NCT07552727
This study proposes a single-blind randomized clinical trial designed to evaluate the effects of high-intensity interval training (HIIT) on liver health in adults with overweight or obesity, while also assessing the usefulness of FibroScan as a tool for detecting and monitoring hepatic changes. The study is grounded in the idea that HIIT may improve liver status in individuals with metabolic dysfunction-associated steatotic liver disease, even in the absence of major weight loss, and that FibroScan could serve not only as a diagnostic method but also as a follow-up instrument during conservative treatment. The sample will include 30 adults from the Los Ríos Region, aged 18 to 59 years, with BMI \>25 kg/m² and chronic noncommunicable conditions such as dyslipidemia, diabetes, or hypertension, provided they are fit for exercise. Participants will be randomly assigned to either an intervention group (HIIT, n=15) or a non-trained control group (n=15). Recruitment will be community-based, using posters and social media, and eligibility will be screened with the PAR-Q+ questionnaire. Individuals with excessive alcohol intake, liver disease of other etiologies, pregnancy, or contraindications to exercise will be excluded. The HIIT intervention will last 8 weeks, with 2 to 3 sessions per week, each session lasting 30 minutes. The protocol consists of five 2.5-minute bouts at 80% of heart rate reserve, interspersed with 2.5-minute active recovery periods at 20% of heart rate reserve. The training will be supervised by a physical therapist experienced in cardiometabolic exercise prescription, and the control group will receive training after the study is completed for ethical reasons. Before and after the intervention, participants will undergo a comprehensive evaluation including blood sampling, anthropometry, body composition, and physical fitness assessment. Blood markers will include transaminases, lipid profile, glucose, and HbA1c. Liver health will be assessed by FibroScan through controlled attenuation parameter (CAP) for steatosis and liver stiffness for fibrosis. Additional variables such as waist circumference, muscle mass, fat mass, handgrip strength, and prior physical activity level will also be recorded. Statistically, the study will compare baseline differences between groups and evaluate pre-post changes after the intervention using parametric or nonparametric tests according to data distribution, along with correlation and multiple regression analyses. The expected outcome is that HIIT will improve liver-related parameters, and that FibroScan will be sensitive enough to detect these changes, supporting its value as a regional clinical tool for the identification and follow-up of hepatic steatosis and fibrosis in people with overweight or obesity.
NCT06161571
The aim of this study is to assess the safety and tolerability of EFX compared to placebo in subjects with non-invasively diagnosed NASH/MASH and NAFLD/MASLD.
NCT07518784
This research study is being conducted to find out more about techniques to non-invasively evaluate liver disease. This is the second phase of a project in which we are testing a new technology to evaluate the liver (LiverScope®). We will compare LiverScope® to other methods to evaluate the liver, including advanced conventional liver MR exams. MR exams are common exams used to monitor MASLD (also known as NAFLD). Conventional MR scanners use magnetic fields and radio waves to make pictures of the liver. LiverScope® is a small, portable MR-based device that uses similar, but simplified technology, and can be used on top of an exam table in an outpatient setting. LiverScope® currently is not approved for clinical use. In this second phase of the study, we took what we learned in the first phase to optimize the LiverScope® device and are now testing to see how LiverScope® measurements compare to MR after these optimizations. Study participants will be asked to complete a one-time visit which includes: * LiverScope exam * MR exam * FibroScan exam (optional) * Blood draw * Completion of study questionnaires
NCT07480811
Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD) in childhood is becoming increasingly prevalent, paralleling the rise in obesity rates, and has become the most common chronic liver disease in the pediatric population. MASLD is associated with metabolic mechanisms such as insulin resistance, dyslipidemia, oxidative stress, and inflammation, and can progress to serious complications like steatohepatitis, fibrosis, and cirrhosis in later stages. Currently, pharmacological treatments for managing MASLD are limited, and lifestyle modifications, particularly dietary interventions, stand out as the primary approach for preventing and treating the disease. In this context, the composition of macro and micronutrients plays a critical role in the development and progression of hepatic steatosis. Within this framework, the Dietary Approaches to Stop Hypertension (DASH) diet is a balanced eating pattern that encourages the consumption of vegetables, fruits, whole grains, legumes, low-fat dairy products, fish, poultry, and healthy fat sources, while limiting sodium, saturated fat, sugary foods, and processed meat products. Similar to the Mediterranean diet, the DASH diet is a promising approach for conditions like metabolic syndrome and MASLD due to its anti-inflammatory potential, its reducing effect on oxidative stress, and its properties that enhance insulin sensitivity. Furthermore, thanks to its high fiber content, it contributes to balancing the gut microbiota and supports the production of short-chain fatty acids (SCFAs), which in turn have positive effects on liver and metabolic health. Evaluated in terms of fat intake, the DASH diet's emphasis on foods rich in n-3 fatty acids (such as fish and walnuts) provides an anti-inflammatory effect, while limiting saturated and trans fats offers an important strategy for reducing hepatic fat accumulation. Additionally, restricting the consumption of added sugars and fructose may be effective in preventing hepatic steatosis by suppressing lipogenesis processes. In light of all these scientific findings, considering the impact of dietary patterns on the development and progression of MASLD, appropriately structuring the diet is critically important for protecting liver health in children. Accordingly, an anti-inflammatory, antioxidant, and metabolically balanced DASH dietary model is considered an effective and applicable approach in the management of pediatric MASLD. Within the scope of this study, the effects of implementing the DASH diet in children with MASLD on clinical and metabolic parameters such as liver enzymes, degree of hepatic steatosis, insulin resistance, lipid profile, and inflammatory markers will be evaluated compared to a control group. Additionally, by examining the relationships between these parameters and quality of life as well as dietary adherence, the potential therapeutic role of the DASH diet in the management of pediatric MASLD will be elucidated.
NCT07440511
Measurement of spleen stiffness (SSM) has shown potential as a complementary tool to liver stiffness measurement (LSM) for the assessment of portal hypertension in patients with MASLD, particularly in the setting of compensated advanced chronic liver disease (cACLD). The 100-Hz probe for SSM, developed more recently, improves the accuracy of spleen stiffness measurements by better capturing the specific characteristics of the splenic parenchyma. This method has been shown to correlate well with HVPG, the gold standard for the assessment of portal hypertension, and has demonstrated good predictive value for the detection of high-risk varices, which are indicative of advanced liver disease. The correlation between SSM and other clinical markers, such as spleen size and platelet count, has proven to be strong, further supporting its utility in assessing disease progression. This makes SSM a promising non-invasive tool for early detection and risk stratification in MASLD, which is crucial for preventing progression to more severe stages such as cirrhosis or hepatocellular carcinoma. In conclusion, the combined use of LSM and SSM shows great potential for improving the non-invasive diagnosis and monitoring of MASLD, providing an efficient alternative to more invasive methods such as liver biopsy and HVPG. This evidence has led to the inclusion of SSM use in clinical guidelines for the management of patients with chronic liver disease. Nevertheless, further studies are needed to confirm these findings and to refine clinical protocols, potentially allowing earlier intervention and improved management of patients with MASLD and its complications.
NCT04555434
A study for evaluating the improvement effect on Metabolic dysfunction-associated steatotic liver disease (MASLD) of probiotics Metabolic dysfunction-associated steatotic liver disease (MASLD) is associated with dysbiosis of the gut microbiota and altered host metabolic homeostasis. Probiotics have been proposed as a potential therapeutic strategy to modulate gut microbial composition and improve metabolic and hepatic outcomes in MASLD; however, clinical evidence regarding next-generation probiotic strains remains limited. This study was designed to evaluate the effects of three next-generation probiotic strains-Lactobacillus delbrueckii subsp. lactis (LL001), Lactobacillus helveticus (LH001), and Pediococcus pentosaceus KID7 (PPKID7)-on liver function parameters and gut microbiome composition in patients with MASLD. We conducted a randomized, double-blind, placebo-controlled, parallel-group clinical trial. A total of 110 adult patients diagnosed with MASLD were screened for eligibility. Eligible participants were randomly assigned to receive one of the three probiotic formulations (3 capsules per day, total 9×10⁹ CFU) or placebo for 8 weeks. All participants received concomitant silymarin during the intervention period. Clinical assessments, serum samples, and stool samples were collected at baseline and at the end of the intervention. Liver function parameters were predefined as the primary outcome measure. Secondary outcomes included changes in anthropometric parameters, serum metabolic markers, gut microbiota composition assessed by 16S rRNA gene sequencing, and lipidomic profiles derived from serum and fecal samples. Compliance was monitored throughout the study period. The study protocol was approved by the institutional review board, and written informed consent was obtained from all participants prior to enrollment.
NCT07366463
Metabolic dysfunction associated Steatotic Liver Disease (MASLD) is frequently complicated by cardiometabolic (CMR) comorbidities, and prognosis is substantially influenced by acute cardiovascular events (ACE). Although several pharmacological approaches target CMR risk factors, lifestyle modification remains the cornerstone of management. However, adherence to dietary behavioral prescriptions is often poor, and the influence of sociodemographic determinants on compliance remains unclear. Moreover, the long-term real-life impact of behavioral and motivational support in MASLD is insufficiently characterized. This randomized controlled trial aims to evaluate the effectiveness of a multidisciplinary management (including Hepatological counseling, Nutrition intervention, and Psychological support) in improving clinical MASLD outcomes, by increasing adherence to specialist-tailored recommendations.
NCT06843148
Metabolic dysfunction-associated steatotic liver disease (MASLD) (aka non-alcoholic fatty liver disease), commonly occurring in individuals with obesity and type 2 diabetes can lead to liver inflammation/ fibrosis. MASLD results from fat being disproportionately deposited in the liver. The goal of this mechanistic study is to investigate metabolic response in patients aged 50 to 80 years with non-alcoholic fatty liver disease, after niacin (vitamin B3) treatment. The main questions it aims to answer are: * Does Niacin lower the fat deposition in the liver? * Does Niacin raise White Adipose Tissue storage of dietary fatty acids? Researchers will compare Niacin to a placebo (a look-alike substance that contains no drug) to compare the metabolic response. Duration of study per participant: Up to 28 weeks
NCT05395481
The main purpose of this study is to evaluate the safety and tolerability of the study drug LY3849891 in participants with metabolic dysfunction-associated steatotic liver disease (MASLD) who have the patatin-like phospholipase domain-containing protein 3 (PNPLA3) I148M genotype. Blood tests and magnetic resonance imaging of the liver will be performed to determine the effects of LY3849891 on MASLD and assessment of resolution of liver fibroinflammation. Blood tests will also determine how long it takes the body to eliminate LY3849891. This is a 2-part study and may last up to 32 weeks for each participant and may include 12 visits in parts A and B.
NCT07304336
This is a non-blinded, three-arm, parallel, 6-month randomized, longitudinal, and controlled intervention trial. designed to compare the effects of three dietary regimes (Mediterranean diet, low-carbohydrate diet and standard nutritional recommendations) on non-invasive parameters of fat accumulation and liver damage, including radiological and biochemical tests, in overweight or obese subjects with MASLD. Participants were enrollment and screening from the Liver Unit of the Department of Medical Sciences, University of Torino and randomly assigned to one of three groups: a low-carbohydrate diet, a mediterranean diet, or standard nutritional recommendations. All participants were submitted to the following assessments both at enrollment and at after 6 month at the end of the study: 3-day food record; the Medi-Lite score; anthropometric measurements (weight, height, BMI, waist and neck circumferences); fat mass, fat-free mass by bioelectrical impedance; hand-grip strength; energy expenditure by indirect calorimetry; blood pressure measurement; blood sampling for metabolic variables and biomarkers of liver damage and liver disease measures (Cap, Stiffness and Fib-4).
NCT07321925
The goal of this study is to use our Thermoacoustic Enhanced Ultrasound device to measure the fat levels in your liver and compare it to the the gold standard MRI PDFF measurements. Participants will have a scan with our device, then they will go have an abdominal MRI completed. The goal is to create a more accessible device to measure liver fat as it is an indicator for overall health and metabolic diseases.
NCT07313007
Metabolic dysfunction-associated steatotic liver disease (MASLD) encompasses a spectrum of liver disorders ranging from simple steatosis-a relatively benign and non-progressive condition-to metabolic dysfunction-associated steatohepatitis (MASH), characterized by hepatocellular inflammation. MASLD is now the leading cause of chronic liver disease worldwide, affecting approximately one in three adults, particularly those with obesity or type 2 diabetes. Recent studies have highlighted a strong interconnection between the gut microbiota, the liver, metabolism, and the immune system, collectively referred to as the gut-liver axis. Alterations in the gut microbiota are observed at all stages of MASLD, and several microbial metabolites-such as trimethylamine, bile acids, short-chain fatty acids, and ethanol-have been implicated in disease progression. Emerging evidence points to a role for gut-derived metabolites of tryptophan (Trp) and phenylalanine (Phe), including phenylacetic acid (PAA), 3-(4-hydroxyphenyl)-lactate (HPL), and phenyllactate (PL). These compounds have been associated with the severity of MASLD, particularly with hepatic steatosis and fibrosis. Elevated plasma levels of aromatic amino acids (AAAs), such as L-phenylalanine and L-tyrosine, are also correlated with increased hepatic fat content. A newly identified Phe-derived metabolite, N-acetyl-phenylalanine (NAPA), together with PAA, HPL, and PL, has been shown to correlate with hepatic steatosis. These metabolites can induce steatosis both in vitro and in vivo, acting through the disruption of endoplasmic reticulum-mitochondria interactions. They therefore represent potential new therapeutic targets. These four metabolites of interest (NAPA, PAA, HPL, PL) can be produced both by gut bacteria and through endogenous human metabolism. Positive correlations between plasma NAPA concentrations and specific bacterial species have been observed, although the responsible taxa remain to be identified. HYPOTHESIS We hypothesize that the gut microbiota of MASLD patients produces aromatic amino acid-derived metabolites, contributing to the elevated plasma concentrations observed in these patients Two complementary strategies will be used : Human Microbiota Culture and Fecal Microbiota Transplantation
NCT07305324
The goal of this clinical trial is to learn whether an artificial intelligence (AI) tool called FibroX can help primary care providers better diagnose significant liver fibrosis (≥F2) and clinically significant portal hypertension in adults with metabolic dysfunction-associated steatotic liver disease (MASLD). The main questions it aims to answer are: * Can FibroX improve the accuracy of diagnosing significant liver fibrosis (≥F2) and clinically significant portal hypertension compared to usual care? * Is FibroX easy to use and acceptable to primary care providers in simulated clinical settings? * Do providers trust FibroX as a decision-support tool? Researchers will compare FibroX-assisted care to usual care to see if FibroX improves diagnostic accuracy, provider trust, and supports better decision-making. Participants will: * Be primary care providers (MDs, DOs, NPs, PAs) from diverse clinics * Review simulated patient cases with MASLD risk factors * Use either usual care tools (standard labs and optional FIB-4 calculator) or FibroX (AI-generated risk score, triage band, and explainability panel) * Make diagnostic and referral decisions for each case * Complete surveys on usability, trust in AI, confidence, and cognitive workload This study will help determine whether FibroX can be integrated into real-world primary care workflows to support earlier and more accurate detection of liver fibrosis and portal hypertension, potentially reducing missed diagnoses, unnecessary referrals, and improving patient outcomes.
NCT06735924
This study aims to determine the daily rate of endogenous synthesis of oxalate using fasted urine collection and a low-oxalate controlled diet in patients with Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD).
NCT06329544
Americans commonly consume excess amounts of dietary fructose. Added fructose has been shown to have an adverse impact on metabolic health, including increased insulin resistance and type 2 diabetes (T2D) risk. However, the mechanisms that link dietary fructose and metabolic health are poorly understood. Malabsorption or incomplete metabolism of fructose in the small intestine is common in the population. Excess fructose reaches the colon where it may change the structure and function of the gut microbiome, alter bacterial metabolites and trigger inflammatory responses impacting T2D risk. To elucidate whether commonly consumed levels of dietary fructose influence metabolic outcomes through altering the gut microbiome, the research team will randomize 30 participants to a controlled cross-over dietary intervention, in which the participants will consume 12-day isocaloric, added fructose or glucose diets (25% of total calories) separated by a 10-day controlled diet washout period. The research team aims to: 1. Determine the relationships between high fructose consumption, the gut microbiome and metabolic risk. 2. Characterize the causal role(s) that fructose-induced alterations to the gut microbiome have on metabolic risk using a germ-free mouse model. The research team will measure 1) microbiota community structure and function via metagenomic sequencing of stool, 2) fecal metabolites via targeted and untargeted metabolomics, 3) anthropometrics, 4) insulin resistance, serum markers of T2D risk and inflammatory cytokines, 5) fecal microbial carbohydrate oxidation capacity and 6) liver fat via MRI elastography. The research team will use novel statistical approaches, including Distributed Lag Modeling, to understand the complex relationships between diet, the microbiome, metabolites and health outcomes. The research team will then conduct controlled dietary interventions and fecal microbiome transplantation studies in germ-free mice. Donor fecal samples from human participants in both the glucose and fructose arms of the clinical intervention will be transplanted into germ-free and colonized mice to establish a causal relationship between fructose-induced changes to the gut microbiome, liver fat and metabolic and inflammatory changes known to increase risk for T2D. The research team aims to comprehensively assess the structural and functional changes to the gut microbiome brought about by a high fructose diet. Determining the impact of excess fructose on the microbiome will help identify novel means by which fructose contributes to metabolic disease risk. In addition to identifying strategies to improve metabolic health in adults, data from this proposal could help inform targeted approaches to mitigate future disease risk in vulnerable populations that consume high levels of fructose, such as children.
NCT07249112
The Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD) is a leading cause of chronic liver disease globally, with a prevalence exceeding 30% in the population. MASLD is strictly associated with insulin resistance and cardiometabolic conditions, and in 20-30% of cases, it can progress to steatohepatitis (MASH), which is characterized by progressive liver damage and inflammation. In patients at higher risk, the disease can lead to the onset of advanced fibrosis, cirrhosis, and hepatocellular carcinoma (HCC). One of the main problems in the clinical management of MASLD is the absence of specific risk biomarkers and the lack of effective treatments, especially for patients with advanced-stage disease. MASLD has a well-documented and enormous genetic component, with studies having identified several common variants associated with this pathology, such as those in the PNPLA3, TM6SF2, and MBOAT7 genes. However, these variants identified so far only explain a small part of MASLD's heritability, suggesting the contribution of rare loss-of-function (LoF) variants as well. Furthermore, scientific evidence indicates that the accumulation of somatic variants, both in hepatocytes and myeloid cells, could also play a key role in MASLD progression. In particular, clonal hematopoiesis of indeterminate potential (CHIP), which is a condition characterized by the presence of hematopoietic clones with somatic mutations often associated with leukemia and cardiovascular diseases, might favor the onset of hepatocellular carcinoma. However, the evidence available to date is still limited and requires further investigation and studies on larger cohorts. The current study therefore aims to deepen this aspect through the analysis of the genetic profile using a Whole-Genome Sequencing (WGS) approach. DNA samples from peripheral blood from patients with advanced MASLD and peripheral blood DNA samples from controls presenting various associated metabolic risk factors will be sequenced. In addition, 80 liver tissue samples from patients with advanced MASLD will also be sequenced to identify specific somatic mutations. The expected results from this study include the identification of new genetic variants associated with MASLD progression, the improvement of risk stratification through the development of polygenic risk scores, and the identification of potential therapeutic targets. This study represents a fundamental step for understanding the biology of MASLD and could have important clinical implications for disease management.
NCT07216859
The goal of this prospective, multicenter, open-label, blinded end-point pragmatic study is to evaluate an artificial intelligence (AI)-augmented echocardiography screening approach for early detection of metabolic dysfunction associated steatotic liver disease (MASLD) and/or cirrhosis, in patients undergoing routine transthoracic echocardiograms (TTEs). The main question it aims to answer is to: 1. Evaluate notification responsiveness and rates of confirmatory testing for patients identified as high risk for having liver disease to determine whether optimized notifications increase timely confirmatory testing and treatment initiation versus standard of care assessment. 2. Compare time to diagnosis, treatment uptake, and clinical outcomes (hospitalizations, incident ASCVD, mortality) between cohorts identified as high risk by the AI algorithm and comparison groups to determine whether AI guided screening shortens time to diagnosis and increases appropriate treatment.
NCT07097506
The goal of this clinical trial is to determine whether ingestion of a ketone ester drink helps improve liver health and blood glucose control. Ketones are a type of energy source made by the body during times of weight loss, low carbohydrate intake and starvation. People enrolled in this study will be randomly assigned (by chance, like the flip of a coin) to one of two groups: Group 1: Ketone ester drink consumed daily for 6 weeks. Group 2: Placebo drink consumed daily for 6 weeks.
NCT07172997
The goal of this observational study is to prospectively develop and validate a non-invasive scoring system based on metabolic markers, proteomic, and transcriptomic profiles to accurately screen, diagnose, stage, and monitor Metabolic dysfunction-associated steatotic liver disease (MASLD) activity and regression as a replacement for the invasive liver biopsy tool in Bahraini bariatric patients. The study also aims to identify biomarkers for predicting type 2 diabetes mellitus remission post-bariatric surgery. The main questions it aims to answer are: * What proteomic and transcriptomic markers can be used to accurately screen, diagnose, stage, and monitor MASLD activity and regression? * What transcriptomic markers can predict type 2 diabetes mellitus remission? Researchers will compare the proteomic and transcriptomic profiles of bariatric patients before and after surgery to identify molecular changes associated with weight loss and normalization of metabolic biomarkers. The data will be used to design and validate a scoring system for MASLD diagnosis and monitoring. Participants will undergo comprehensive assessments, including anthropometric measurements, metabolic biomarker evaluations, proteomic, and transcriptomic profiling at three time points: before surgery, and at 6- and 12-months post-surgery. The data collected will inform the development of the non-invasive scoring system, which will be tested for its reliability and accuracy in replacing liver biopsy as the standard diagnostic tool for MASLD.
NCT07090083
This proposal addresses a critical gap in our understanding of the impact of household food insecurity (FI) on pediatric metabolic dysfunction-associated steatotic liver disease (MASLD) severity. There is evidence that children in families that do not have the ability to provide consistently healthy and high-quality foods, such as fruits and vegetables, have worse diet quality that children in households that are food secure. Additionally, evidence from adult studies link household FI to MASLD and liver fibrosis, and prior research of the PI has shown that exposure to household FI in early childhood was associated with a nearly 4 times increased odds of pediatric MASLD in middle childhood. Possible mechanisms linking household FI to pediatric MASLD include lower intake of fruits and vegetables, higher intake of caloric dense nutrient poor foods (e.g., sugar sweetened beverages), and less diversity of foods. Given consensus recommendations for the management of MASLD focus on lifestyle modification, i.e., diet and exercise to achieve weight loss, this proposal seeks to explore the association of household FI and pediatric MASLD disease severity and whether those effects are mediated by dietary intake. Study participants include children/adolescents with MASLD who are receiving care at UCSF's liver clinic and Weight Management for Teen and Child Health (WATCH) Clinic, a pediatric subspecialty clinic.