View clinical trials related to Cirrhosis.
Filter by:Portal hypertensive gastropathy (PHG) is used to describe the endoscopic appearance of gastric mucosa in patients with cirrhotic portal hypertension, with a characteristic mosaic-like pattern with or without red spots. The severity of PHG can vary from mild to severe, and patients with PHG are at an increased risk of acute and chronic gastrointestinal bleeding. According to the study by Kim et al, severe PHG showed a significantly high-risk of mortality and reduced expected survival time than none or mild PHG. Therefore, we need to detect PHG as soon as possible.However, as an invasive examination, endoscopy examination may massive gastrointestinal bleeding or gastric perforation. Most patients are afraid and disable to tolerate it, which significantly reduces the real morbidity of PHG and delays the time for diagnosis and treatment. Therefore, there is a need to find effective non-invasive methods that can predict patients with PHG in the early stage, especially which require treatment.
Liver cirrhosis is caused by chronic liver diseases, varices exist in 30 - 60% of patients with liver cirrhosis. Variceal bleeding is one of the most important complications of cirrhosis, accelerating the progression of decompensation to a stage at which the patient is at an extremely high risk of death. Endoscopy is the gold standard for the diagnosis of varices, However, periodic endoscopic screening in all cirrhotic patients might unnecessarily induce an invasive and expensive procedure, ultimately increasing not only the medical workload of endoscopy units, but also the financial burden of patients. To avoid unnecessary endoscopy in low- risk patients, some simple, non-invasive and accurate tests have been developed to identify EVs. Such as Transient elastography (TE) , which is a noninvasive tool that measures liver stiffness (LS) correlating to liver fibrosis stage. Moreover, the LS-spleen size-to-platelet ratio score (LSPS), which is a combination of three simple examination methods (LS, spleen size and platelet count) has been established to accurately predict EVs in patients with cirrhosis. Therefore, investigators design this cross-sectional study to assess these non-invasive tests in predicting the presence of EVs in patients with cirrhosis.
Many studies describe the relationship between microbiota alteration and the occurrence of metabolic, alcoholic or inflammatory liver diseases. Nevertheless, the modifications of microbiota during liver transplantation (LT) as well as its implication are poorly studied. Similarly, only the intestinal microbiota is studied in this context, and no data are available on the biliary microbiota, even if it is known that bile microbiota can interfere with hepatobiliary diseases. This study proposes a clinical and biological in-depth follow-up with multiple sampling of liver transplanted patients to study biliary and intestinal microbiota alterations along LT, as well as bile acids metabolism in corresponding fluids. Indeed, in recipient samples as saliva, blood, urine, and feces can be taken before LT, and surgeons can easily perform bile sampling during LT. In donors all samples can be taken during liver removal. This offers the opportunity to have a microbiotic landscape of individuals without liver disease (donor), and patients suffering from a chronic liver disease or a liver cancer before and after transplantation. Also, in Grenoble University hospital, in case of biliary anastomotic incongruence, a biliary stent is placed during LT in 60% of recipients. This stent is removed by endoscopic retrograde cholangiopancreatography (ERCP) within 6 months after LT, offering a second opportunity to obtain bile samples in transplanted patients, after the early post-LT period. Patients who do not require a biliary stent will also be included for the study of secondary objectives, as intestinal microbiota is very poorly characterized in liver transplanted patients too. A portion of the patients without biliary stent, may also develop an anastomotic biliary stricture requiring an ERCP. If this ERCP is realized within the follow-up period of the study, the patient will also be included in the primary objective of the study. These multiple and sequential samples will allow a complete analysis of microbiota changes in LT patients and aim to answer to 3 questions: 1. What are the modifications of intestinal and biliary microbiomes during LT? 2. What is the influence of bile acids' composition on intestinal and biliary microbiota? 3. What are the relationships between microbiome alterations and the emergence of LT complications?
The purpose of this study is to determine the feasibility of a home meal delivery program for patients with cirrhosis and ascites and to determine the effectiveness of a salt-restricted (2 gram sodium) meal delivery program in reducing the need for therapeutic paracenteses and/or all-cause re-admissions for these patients. Many patients with cirrhosis don't have enough nutrients in the body and are frail and these meals may help them maintain a good diet and lead to improved quality of life.
Heptorenal syndrome (HRS) is divided into two types. A non-acute kidney injury (NAKI-HRS), which is predominantly related to end-stage disease and a more acute kidney injury (HRS-AKI). HRS-AKI is potentially reversible and develops subsequent to aggravation of a systemic circulatory vasodilatation, that triggers renal vasoconstriction and deteriorates renal perfusion and function. The albumin and terlipressin response is evaluated clinically, routinely for a week and reduces mortality with 23% compared to no treatment. Only 40-50% of the patients with HRS-AKI respond to the treatment with terlipressin. The treatment of hepatorenal syndrome (HRS-AKI) is aimed at improving blood flow to the kidneys. Flow changes associated to development of HRS have only sparsely been studied and not previously by MR technique and no previous studies have evaluated changes in flow induced by terlipressin. It has been hypothesized that development of HRS is associated to a deterioration in heart function with development of cardiomyopathy, which together with renal vasoconstriction leads to renal failure. Simultaneous MR-assessments of cardiac function and flows (especially the renal flow) in HRS-AKI have not previously been performed. The aim of the project is to develop new, fast and non-invasive methods to evaluate hemodynamic changes and individual pharmacological terlipressin response in patients with acute hepatorenal syndrome (type HRS-AKI) We expect a higher increase in renal blood flow in terlipressin-responders compared to terlipressin-non-responders and non-responders will generally have a lower basic renal flow and a decreased cardiac output. Study design and patients The study design is experimental and includes 30 cirrhotic patients with HRS-AKI. Patients with HRS-AKI are MR scanned before and 17 minutes after their first dose of terlipressin. ECHO is performed before first dose of Terlipressin and is repeated after one of the first doses of terlipressin. Clinically efficacy is defined in accordance to international guidelines at day-7 and 90 days mortality is registered. The screening period and treatments follow international and national guidelines for acute renal failure in patients with cirrhosis.
The study evaluates whether sarcopenia influences the prevalence of abdominal hernias in patients with cirrhosis.
Liver cirrhosis is a chronic disease characterized by a progressive accumulation of fibrosis, loss of liver function and portal hypertension leading to several hemodynamic changes.The exact pathophysiological mechanisms causing the hyperdynamic alterations in cirrhosis are not fully elucidated. Aim: The aim of the study is to assess hemodynamic alterations in liver cirrhosis by non-invasive MRI and echocardiography compared to portal hypertension measured with liver vein catheterization (HVPG, hepatic vein pressure gradient). Furthermore, the aim is to explore hemodynamic differences between cirrhotic patients and healthy subjects. Study design and cohort: The study has a cross-sectional design and a cohort with 99 patients with liver cirrhosis - with and without complications and 27 healthy volunteers. The patients are recruited at the Gastrounit Hvidovre University Hospital. The day before the first visit patients are hospitalized and fasting overnight. At first visit liver vein catheterization (LVC) and echocardiography are performed. Second visit must be performed within 4 weeks after first visit. At the second visit patients are fasting minimum 6 hours before having MR-flow scanning, cardiac-MR and MR-Elastography (MR-E). The healthy volunteers are only offered MR-flow scanning, cardiac MR and MR-E as well as urine- and blood tests Follow-up for liver-related clinical outcome and mortality in medical records
To validate the ability of the Methacetin Breath Test (MBT) to detect clinically significant portal hypertension (CSPH)/severe portal hypertension (SPH) defined as hepatic venous pressure gradient (HVPG) ≥ 10 mmHg and HVPG ≥ 12 mmHg respectively, in patients with non-alcoholic steatohepatitis (NASH) during the course of treatment with Conatus's investigational product emricasan/placebo.
Background: Standardization and new therapeutic treatments of variceal bleeding has significantly reduced the mortality the last 25 years, but there is still a high 6-week mortality around 15-20% and 1-year mortality of about 40%. Cirrhotic patients without prophylactic treatment suffer a risk of 60% of re-bleeding within the first year after the first bleeding episode. Variceal ligation and NSBB are the standard therapy as secondary prophylaxis, while only non-selective beta-blocker (NSBB) is offered as first-line therapy in primary prophylaxis. If portal pressure is reduced to a value below 12 mmHg or by 20% (10% if assessed by intravenous administrations), the risk of bleeding is substantially reduced, but not all patients respond to the treatment with propranolol (40-50%). Hence, patients who are non-responders to NSBB should be offered alternative treatment with e.g. carvedilol, which is a combined alpha-beta-receptor blocker or endoscopic band ligation. Currently, the response to NSBB is assessed invasively during a liver vein catheterization (LVC). Unfortunately, only a few centres in the world can perform this procedure and there are no reliable non-invasive alternatives to assess the respond to NSBB, which is of extreme importance, since non-responders have three fold increased risk of a new variceal bleeding episode. Aim: In general the aim of the project is to develop faster and non-invasive methods to evaluate portal hypertension and individual pharmacological response of NSBB in patients with cirrhosis. Furthermore, we expect to detect changes in liver and spleen stiffness as measured by MR-Elastography (MRE) after NSBB and that these depend on the drug-related effects on portal pressure. Study design and patients: 39 patients with cirrhosis and esophageal varices that require NSBB (propranolol) treatment. Patients are assessed with LVC, MR-scans, echocardiography and biochemical tests. LVC is the gold standard method to test if patients respond to propranolol treatment. At visit 1. the response to NSBB is defined as a reduction of HVPG ≥10%, or to a HVPG< 12mmHg after intravenous NSBB administrations during LVC. MRI-scan with intraveneus NSBB administration is performed at visit 2. Minimum 5 days of NSBB wash out between visit 1 and 2.
There is an epidemic of alcohol use disorder in the US. Alcoholism is an epidemic that spans all ages and socio-economic strata, which has a major impact on healthcare expenditure. Alcohol-associated liver disease can take the form of mild fatty liver, chronic liver disease including cirrhosis and a very acute active form known as alcoholic hepatitis. However, most patients with alcohol abuse issues with cirrhosis do not develop alcoholic hepatitis and are not willing to quit drinking. These patients are neither liver transplant candidates due to their drinking nor have any recourse to therapies directed towards the liver as is the case with alcoholic hepatitis. This is very large proportion of cirrhotic patients who do not have many therapeutic options. Prior studies have demonstrated that these patients have an altered gut-liver axis which is exacerbated by dysbiosis and a higher production of potentially toxic secondary bile acids. These secondary bile acids in turn have the potential to worsen the already impaired gut barrier in these patients, creating a vicious cycle of inflammation and further liver injury that is led by the altered microbial composition. A gut-based strategy that has the capability of "resetting" this dysbiosis could help in the amelioration of this inflammatory load and improve the prognosis of these patients.