View clinical trials related to Liver Diseases.
Filter by:Patients with complications of advanced liver disease often have difficulties after hospital discharge that result in early hospital readmission. Poor outcomes for these patients during this transitional time could be improved through the use of innovative transitional care models. This proposal aims to examine the effect of a transitional care model, The Transitional Liver Clinic (TLC), in reducing hospital re-admissions, improving quality of life, and improving patient experience.
This is an European, prospective, interventional, multicenter clinical investigation that will take place in 2 French sites. 100 adults patients will be included. The study objective is to compare the applicability between the Research FibroScan and the reference FibroScan examination performed on the liver.
This is a proof of concept clinical trial to compare daily intake of at least 20 grams of whole dairy fat vs habitual diet on hepatic steatosis in children with NAFLD.
This is an open-label, non-randomized trial that will be conducted at three clinical sites, Thomas Jefferson University (TJU), the Hospital of the University of Pennsylvania (HUP) and University of Bern (UB). Enrollment will be allocated into one of 4 different cohorts depending on the inclusion criteria for each cohort. Cohort 1: Patients scheduled for hepatic vein pressure gradient (HVPG) measurements will subsequently undergo two consecutive SHAPE (subharmonic aided pressure estimation) procedures using different ultrasound contrast agents (Definity [Lantheus Medical Imaging, N Bilerica, MA, USA] and Sonazoid [GE Healthcare, Oslo, Norway] in randomized order) to estimate portal pressures with a Logiq E10 scanner (GE Healthcare, Waukesha, WI, USA) and determine the reproducibility of the SHAPE algorithm. Cohort 2: Patients identified as having clinically significant portal hypertension (CSPH) will be monitored by SHAPE with Sonazoid for the duration of this project (18-24 months on average). These subjects will have follow-up ultrasound scans every 6 ± 2 months to check for hepatocellular carcinoma (HCC) (using the Barcelona-Liver Cancer staging system) as well as ascites and at those times a repeat SHAPE examination will be performed. Liver stiffness values will be measured with elastography as well. This cohort will examine if serial SHAPE can accurately predict development of ascites and other liver related events in patients with compensated cirrhosis undergoing routine HCC surveillance in a multi-center setting. Cohort 3: Subjects newly diagnosed with portal hypertension and starting treatment with non-selective β-blockers will be monitored with SHAPE and results compared to elastography measurements of liver stiffness with standard assessments (e.g., serum liver function tests and measurement of spleen size as well as platelet count). This cohort will establish if SHAPE can be used to monitor treatment response in patients identified with portal hypertension. Cohort 4: Patients with compensated advanced chronic liver disease scheduled for an endoscopy examination for screening of varices relative to the Baveno VI and the expanded-Baveno VI criteria as well as the AST to Platelet Ratio Index will undergo a SHAPE examination. This cohort will compare the predictive ability of SHAPE for allocating patients with compensated advanced chronic liver disease to screening of varices compared to the current standard of care.
This is an observational study exploring the performance of a novel point-of-care diagnostic testing platform designed to quantitate the presence of liver function biomarkers such as bilirubin. Blood samples will be collected from participants to further development and validation of the testing platform to support FDA review. The diagnostic device is intended to provide rapid in-office test results using a finger stick of blood, a reaction test device, and a smartphone app.
The investigators attempted to evaluate whether the use of PAC is associated with better clinical outcomes after liver transplantation compared with the case without PAC.
In this study, 18-60 years old patients with metabolic associated fatty liver disease(MAFLD) will be recruited to test the intervention effect of vegetarian diet. This randomized clinical trial randomized individuals to a healthy vegetarian diet or a healthy omnivorous diet for 24 weeks. At the baseline and after the 24week intervention, the clinical manifestations of MAFLD, obesity levels, indices for glucose and lipid metabolism parameters, results of questionnaire and fecal samples will be collected and analyzed.
To date, no specific treatment options exist for liver diseases, and there is a large global effort to find drugs that will halt liver disease progression in these patients.Liver fibrosis staging is essential as a diagnostic/prognostic measure and there is an increasing demand for accurate non-invasive liver stiffness measurement tools. This research project proposes a novel MR-based quantitative Liver Deformation Biomarker (qLDB) approach for non-invasive liver fibrosis assessment by using a new technique called 4D-MRI. 4D-MRI allows to overcome the limitations of currently used techniques. Hence, 4D-MRI may help to identify a novel biomarker for non-invasive staging of liver fibrosis , and therefore improve the final diagnosis of patients suffering from liver diseases.
Liver cirrhosis is a common serious chronic disease. There are about 123 million patients with liver cirrhosis worldwide, and about 1 million people die of liver cirrhosis every year. The proportion of bacterial infection in hospitalized patients with liver cirrhosis is between 25% and 46%, among which spontaneous bacterial peritonitis (SBP) is the most common type of infection in patients with liver cirrhosis. After early and reasonable diagnosis and treatment, the mortality of cirrhotic patients with SBP can be reduced from more than 90% to about 20%. Therefore, rapid and accurate diagnosis is of great help to improve the prognosis of cirrhotic patients with SBP. However, at present, the traditional detection methods is time-consuming with a low detection rate, and can not detect intracellular bacteria and some other types of pathogens. Next-generation sequencing (NGS) is a relatively new detection technology which can detect the nucleic acid sequence information in a high-throughput, large-scale way. It can detect the pathogens comprehensively, fast and accurately. In recent years, NGS has gradually transitioned from a research tool to a diagnostic method. Many studies have shown that NGS has better application value in bloodstream infections, ocular infectious diseases, central nervous system infectious diseases and respiratory infectious diseases. However, there is still a lack of research on the use of NGS for the detection of pathogenic microorganisms in ascites. Therefore, by comparing the next generation sequence (NGS) and traditional detection technology in the detection of pathogens in ascites, this study aimed to evaluate the value of NGS in the pathogenic diagnosis of ascites infection.
" Despite the medical and surgical progress of the last two decades, the selection of candidates for liver surgery remains based on old principles and insufficiently sensitive to fine-tune the gesture to patient-specific characteristics and make almost zero risks of postoperative liver failure (PLF) and death. It is therefore necessary to develop new tools that will make possible to predict the evolution of the postoperative portocaval gradient (difference of pressure between portal vein and vena cava), a well-known major risk factor for PLF. Hemodynamic modeling of the human liver during surgery will represent the purpose of this work in order to help the clinicians in their patient's selection and anticipation of postoperative risk. The aim is to develop and validate an hemodynamics mathematical model to predict the evolution of the portocaval gradient in three surgical situations of increasing complexity: portal modulation by embolization, hepatectomy, and small partial graft liver transplantation. The endpoints will be the estimation of the intraoperative post-procedural portocaval gradient and comparison of the estimated portocaval gradient with that measured at the end of the procedure. This pressure differential is performed before parietal closure, after surgery. "