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Active clinical trials for "Fatty Liver"

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Expanding Donor Pool for Live Donor Liver Transplantation: Utilization of Donors With NASH After...

Non Alcoholic Steatohepatitis

Live donor liver transplantation (LDLT) is the treatment of choice for end-stage liver disease, predominantly in the East, where deceased donor liver transplantation is sparse. In LDLT, donor selection has to be stringent; as the donor safety is thepriority. Live liver donors (LLD) with complex biliary and vascular anatomy are increasingly being accepted for donation with the betterment of technical expertise. One of the commonest reasons for LLD rejection is the hepatic parenchymal abnormality because ofsteatosis and steatohepatitis, which can increase the donor risk. Retrospective analysis of donors with non-alcoholic steatohepatitis(NASH) who were optimized and taken up for major hepatectomy from June 2011 to January 2018will be performed.

Completed3 enrollment criteria

Molecules Associated With the Presence and Severity of Nonalcoholic Fatty Liver Disease

Nonalcoholic Fatty LiverMetabolic Syndrome

Non-invasive diagnosis and treatment of nonalcoholic fatty liver disease (NAFLD) remain unmet medical needs. Aim of this study is to investigate the blood levels of three hormonal systems related to obesity, insulin resistance and inflammation in patients with different stages of NAFLD, in order to identify potential diagnostic markers. Study aim: To compare the blood levels of: a) proglucagon-derived hormones (glucagon-like peptide [GLP]-1, GLP-2, glicentin, oxyntomodulin, glucagon, major proglucagon fragment [MPGF]), b) follistatins-activins (follistatin-like (FSTL)3, activin B), c) IGF axis (insulin-like growth factor (IGF)-1, total and intact IGF binding protein (IGFBP)-3 and IGFBP-4, in 18 individuals with early stage NAFLD vs. 14 controls To explore the levels of GDF-15, total and intact, in NAFLD versus obese controls (OC) at baseline and during oral glucose tolerance tests (OGTTs)

Completed3 enrollment criteria

Impact of Muscle Insulin Resistance on the Pathogenesis of Non Alcoholic Steatohepatitis

Non Alcoholic Fatty Liver Diseases (NAFLD)

The incidence of Non alcoholic fatty liver disease (NAFLD) continues to increase, and prevalence estimates for NAFLD range from 17-33%, making it is the most common cause of chronic liver disease in North America. It is associated with increased cardiovascular morbidity as well as progression to cirrhosis is a subset of patients. There is currently no approved treatment for NAFLD. A key barrier to the development of effective therapies is a lack of consensus on the criteria for diagnosis and endpoints for studies evaluating diagnostic markers, prognosis and therapeutic modalities. NAFLD encompasses an entire pathological spectrum of disease, from relatively benign accumulation of lipid (steatosis) to progressive non alcoholic steatohepatitis (NASH) associated with inflammation, fibrosis, and necrosis. It has been estimated that 20-30% of patients with NAFLD will exhibit biochemical and histological changes characteristic of NASH, and 15-20% of those patients will progress to have cirrhosis. NASH remains an important phenotypic state, because this sub-group of patients is deemed at high-risk for developing progressive disease resulting in cirrhosis, liver failure requiring transplantation, or death. Although NAFLD has not to date been included as a component of the metabolic syndrome, there is increasing evidence that NAFLD frequently accompanies the development of insulin resistance and therefore may be an indicator or predictor of future cardiometabolic risk. Moreover, recent findings in skeletal muscle of experimental insulin resistance (lipid infusion) as well as naturally occurring obese and type 2 diabetic, insulin resistant patients show that skeletal muscle inflammation leads to a pattern of extracellular matrix, structural, and remodeling abnormalities that closely resemble the TGFb, connective tissue growth factor (CTGF) mediated fibrotic response that differentiates simple steatotic liver from NASH. This suggests there may be a common underlying mechanism. Given the ready availability of skeletal muscle tissue using percutaneous needle muscle biopsies, compared to the more invasive liver biopsy, it may be possible to use characteristics of skeletal muscle to distinguish the severity of liver fibrosis. Given the preponderance of patients being identified with NAFLD, the recognition of less and non invasive tests that help to discriminate the different phenotypic types of NAFLD would be highly practical and useful. This would help identify patients at risk of progression to cirrhosis, and thus make them the target of any available therapeutic interventions. The investigators hypothesize that 1. Insulin resistance measured through glucose tolerance test directly correlates with the extent of liver and muscle fibrosis, and 2. Inflammation and fibrosis in the skeletal muscles correlates with the histopathological changes seen in patients with NAFLD, and potentially skeletal muscle inflammation may be used as a diagnostic predictor to differentiate patients with NASH from patients with simple steatosis. The overall goal of this project is to determine the extent to which inflammation and fibrosis in skeletal muscle mirrors and is predictive of the level of liver inflammation and can distinguish NASH from simple steatosis. Specifically, the investigators propose the following Aims: To use estimates of insulin sensitivity from modeling of oral glucose tolerance tests to test the hypothesis that the extent of liver and muscle fibrosis is directly related to insulin resistance. To use liver and muscle biopsies to characterize the changes in abundance of mRNAs and proteins that characterize inflammation, extracellular matrix remodeling, and fibrosis. The investigators will use quantitative rt-PCR and immunoblot analysis to compare mRNA expression and protein abundance of collagens I and III, fibronectin, and connective tissue growth factor (CTGF) to test the hypothesis that there is a direct relationship between the levels of these proteins in muscle and liver and the degree of fibrosis. To establish a biospecimen repository of serum, mRNA from circulating white blood cells, liver and muscle tissue, and DNA to serve as the substrate for future studies of the pathogenesis of NASH.

Completed17 enrollment criteria

Non Invasive Measurements of Fibrosis, Inflammation and Steatohepatitis in Morbidly Obese Patients...

Morbid ObesityNon Alcoholic Steatohepatitis

Abstract: Fatty liver most frequently corresponds to a fat overload of the liver. It is usually classified as alcoholic steatosis or non-alcoholic steatosis. In the case of non alcoholic fatty liver overload, the histological spectrum ranges from simple steatosis to steatohepatitis (NASH) which associates inflammation to steatosis, with a risk of progression to fibrosis and cirrhosis. Obese patients are at particular risk of NASH. Screening of these hepatic lesions is difficult especially as they may exist while the liver tests are normal. The diagnosis of NASH is currently done by liver biopsy, which exposes them in particular to the risk of hemorrhagic complications. Number of subjects required: According to the literature and data collected Louis Mourier in the recent years, the inclusion of 200 patients would examine 20-40 patients with severe histological steatosis and steatohepatitis. All patients will be included in Louis Mourier hospital. Follow-up: one month Search duration: 37 months Duration inclusions: 36 months The total duration of participation for a patient will be one month. Methodology: It is a monocentric, prospective study evaluating the value of noninvasive tests for the diagnosis of hepatic lesions in morbid obese patients. The "open " MRI system allows access to MRI for all obese patients (maximum weight 250 kg). Three of such systems are available in France and liver pathology can be explored only on the system of Louis Mourier. The reference method is liver histology; studied tests are abdominal MRI, Fibroscan / CAP, and serum tests. Examinations required specifically for research Examinations required specifically for the research is abdominal MRI, FibroScan/ CAP and serum tests. Primary endpoint : To validate the use of abdominal MRI, the FibroScan/ CAP and serum tests for finding severe steatosis and / or NASH, specificity, sensitivity, positive and negative predictive values of these tests are calculated. The gold standard is the result of histology on liver biopsy, with a morphometric study of these parameters. ROC curves are used to determine the best compromise between sensitivity and specificity. The secondary endpoints were: Histological lesions of liver fibrosis. Quantification of abdominal fat by MRI (in the form of three variables of interest: quantification of the surface of the visceral fat, of subcutaneous fat and of intrahepatic fat assessed by the percentage loss of signal

Completed13 enrollment criteria

Unravelling Mechanisms of Fructose vs Glucose Consumption in the Pathogenesis and Progression of...

Non-alcoholic Fatty Liver DiseaseNon-alcoholic Steatohepatitis

Non-alcoholic fatty liver disease (NAFLD) comprises a spectrum ranging from simple fatty liver over steatohepatitis (NASH) to liver cirrhosis and cancer (HCC) and is a major and increasing health problem affecting nearly 40% of the general population. Moreover, NAFLD is an important risk factor for progression of diabetes and atherosclerosis. However, the pathomechanisms determining disease progression are poorly understood. The overall aim of this project is to test the central hypothesis that excessive fructose consumption provides a multiple metabolic hit in the pathogenesis and progression of NAFLD/NASH by impairment of hepatic lipid homeostasis and mitochondrial function resulting in hepatic lipotoxicity with inflammasome activation and disturbed interorgan cross-talk among insulin sensitive tissues.

Unknown status25 enrollment criteria

Involvement of Steatosis-induced Glucagon Resistance in Hyperglucagonaemia

Non-alcoholic Fatty Liver Disease

The purpose of this study is to examine whether non-alcoholic fatty liver disease (NAFLD) is associated with hepatic glucagon resistance and hyperglucagonemia.

Completed15 enrollment criteria

Ursodeoxycholic Acid in Bariatric Surgery

Non-alcoholic Fatty Liver DiseaseMorbid Obesity

In an open-label trial, 20 otherwise healthy morbidly obese patients scheduled for bariatric surgery will be administered 20 mg/kg/day ursodeoxycholic acid for three weeks until the day before surgery. The maximum dose will be 3 g/day. Twenty other patients will serve as controls. Serum from days 1 and 21 will be analyzed for routine liver tests, bile acids, a complete lipid profile including FA and in addition for 7α-hydroxy-4-cholesten-3-one and fibroblast growth factor 19 (FGF-19), markers for bile acid synthesis its intestinal stimulation. For the evaluation of insulin resistance and possible pre-diabetes, plasma will be taken for the estimation of homeostasis model assessment (HOMA) index and oral glucose tolerance test (OGTT) will be performed at days 1 and 21. At surgery, a liver biopsy (0.5-1 g) and a white adipose tissue (WAT) specimen (1 cm2) will be taken and immediately frozen in liquid nitrogen for messenger ribonucleic acid (mRNA) and protein preparation for quantitative real-time polymerase chain reaction (RT-PCR) and Western analysis, respectively, histopathological Non-alcoholic fatty liver disease (NAFLD) grading, and measuring of hepatic and white adipose tissue (WAT) lipase activity. In all patients at randomization, abdominal ultrasound will be performed for the detection of NAFLD and gallstones and a blood sample will be taken for the analysis of polymorphisms of hepatic lipid synthesis, storage, fatty acid (FA) oxidation and export genes. Six month after operation, HOMA, OGTT and abdominal ultrasound will be repeated.

Completed11 enrollment criteria

Determination of the Effect of Extreme Dietary Carbohydrate Restriction on Hepatic Glucose Production...

Non-Alcoholic Fatty Liver Disease

All subjects will be evaluated by the Research Nurse at the Clinical Translational Research Center (CTRC) Outpatient Clinic to obtain informed consent, a brief medical history, weight, body mass index, waist/hip circumference and vital signs. Additionally, blood will be drawn at this visit to screen for renal dysfunction (Chem 10), liver disease (liver function tests (LFT's)), thyroid dysfunction (TSH), diabetes mellitus (HbA1C), and chronic inflammatory states (erythrocyte sedimentation rate). Subjects recruited to the study will be placed on a low-carbohydrate diet (<20 g/d without caloric restriction) designed either to promote weight loss or maintain weight stability for fourteen days prior to the protocol or they will consume a typical "Western" diet designed either to promote weight loss (restricted by 1300 kcal/d in the final fourteen days) or maintain weight stability for twenty-one days. Subjects recruited to the study will be lean, overweight, or obese and also may carry a diagnosis of NAFLD. Target accrual for total enrollment for this project will be set to 80 subjects to accommodate attrition and screen failures. The details of the low-carbohydrate diet have been discussed in consultation with Linda Brinkley, nutrition staff of the CTRC. Subjects chosen to undergo carbohydrate-restriction will have a teaching session with a CTRC dietician. Subjects will then initiate dietary carbohydrate-restriction on their own and keep a daily dietary record for seven days. At the end of seven days, the dietary record will be analyzed. The CTRC will then prepare all meals for the final seven days of the diet in accordance with daily caloric intake calculated from the dietary record. Calorie-restricted participants will keep a dietary record for one week while eating a typical "Western" diet. The dietician will analyze this record and meals restricted by 1300 kcal/d will be prepared by the CTRC for the final fourteen days of the diet. Alternatively, some subjects eating a typical "Western" diet may consume prepared meals with a fixed content of carbohydrate, fat, and protein that is unrelated to their pre-study dietary intake. In this scenario, the dietary carbohydrate content may be varied between 30 and 60% to provide information on differences in hepatic metabolism under conditions of differing, but clinically sustainable, carbohydrate intake. All participants will be admitted to the CTRC the night prior to the study and begin an overnight fast after dinner. Between 18:00 and 09:00, subjects will receive two stable isotope tracers orally: [U-13C]propionate at 08:00 (three 400 mg doses given over 1 hour) and 70% 2H2O at 22:00, 02:00, and 06:00. During the study subjects will also be given 0.5% 2H2O ad libitum. Two 500 mg acetaminophen tablets will also be given at 08:00. Between 08:00 and 09:00 subjects will undergo measurement of their respiratory quotient (RQ) using the CTRC indirect calorimeter (Delta Trac II).. Subjects will then have an intravenous catheter placed and an infusion of tracer amounts of [3,4-13C2]glucose, [1,2-13C]β-hydroxybutyrate and [3,4-13C]acetoacetate will be initiated. At 1 ½ and 2 hours after initiation of the infusion, a 50 cc blood draw will be performed. Voided urine will be collected every hour after ingestion of acetaminophen until the protocol concludes. The subject will then be given a meal and discharged from the CTRC, marking the completion of the protocol. The collected blood and urine will be transported by the research coordinator to the Advanced Imaging Research Center lab for analysis by MRS. Another blood draw (approximately 10 cc) will be done in conjunction with the final MRI in order to measure changes in the lipid profile after the diet intervention. The visits in their entirety will be as follows: 1 screening visit: 20 minutes dietician visit: 20 minutes MRS visits: 45 minutes each 1 (optional) overnight visit: 20 hours

Completed4 enrollment criteria

Obstructive Sleep Apnea and Non-alcoholic Fatty Liver Disease

Non-alcoholic Fatty Liver DiseaseSleep Apnea1 more

Obstructive sleep apnea (OSA) and nonalcoholic fatty liver disease (NAFLD) are frequently encountered in patients with metabolic syndrome (MS). Several data suggest that OSA per se could be a risk factor of liver injury. Most previous studies evaluating the association between OSA severity and the severity of NAFLD used indirect markers of NAFLD including liver imaging or liver injury blood markers or have been performed in morbidly obese patients undergoing intraoperative needle liver biopsy during bariatric surgery. The current study propose to investigate with a full night polysomnography consecutive patients undergoing percutaneous liver biopsy for suspected NAFLD.

Unknown status6 enrollment criteria

De Novo Lipogenesis, Lipid and Carbohydrate Metabolism in Non-alcoholic Fatty Liver Disease

Non-alcoholic Fatty Liver DiseaseDiabetes

The worldwide epidemic of obesity is paralleled with increased cases of non-alcoholic liver disease (liver fat accumulation) and diabetes. Fat belongs in the adipose tissue, and if excess fat accumulates in the liver or muscle, these tissues cannot use sugar efficiently. It has been discovered that when large quantities of fructose (a sugar present in soft drinks) are consumed, the conversion of carbohydrate (CHO) to fat in the liver increases. We hypothesize that: 1) subjects with fatty liver have a higher CHO uptake and conversion to fat in their liver when compared to matched control subjects with normal liver fat content; and that: 2) when subjects with fatty liver are fed a diet limiting fructose and simple sugars will decrease their liver CHO fat content. This reduction in liver fat will normalize the way the liver responds to sugar and insulin, reversing the pre-diabetic state. The measurement of these parameters will be done using state-of-the-art techniques such as safe non-radioactive isotope tracers and non-invasive magnetic resonance spectroscopy. For more information, please call 415-206-5532 for a phone screening

Completed12 enrollment criteria
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