View clinical trials related to Cirrhosis, Liver.
Filter by:This study will assess the feasibility, safety and effectiveness of a structured prehabilitation program combining exercise training, nutritional optimization and psychological support for patients with cirrhosis awaiting liver transplantation.
The investigators use machine learning capabilities on massive electronic health records for the purpose of developing a model that prioritizes individuals at high risk of progressing to liver cirrhosis, and validating it with participants that the model found to be at high risk. constructing and validating a reliable model, with sufficient accuracy to justify further and expensive means of detection, will enable treating patients with damaged liver at an early enough stage to allow improvement of the liver condition.
To determine the effectiveness of a behaviorally-based tailored disease management intervention in patients with fibrosis or steatosis and risk factors for cirrhosis.
Loss of skeletal muscle mass or sarcopenia is the most common and potentially reversible complication in cirrhosis that increases morbidity and mortality before, during and after liver transplantation. No proven treatments exist for the prevention or reversal of sarcopenia in cirrhosis, primarily because the mechanisms responsible for this are unknown. Based on compelling preliminary studies and those of the co investigator, investigators hypothesize that the mechanism of reduced skeletal muscle mass in cirrhosis is due to a myostatin mediated impaired mTOR (mechanistic target of rapamycin) signaling resulting in reduced protein synthesis and increased autophagy. Investigators further postulate that leucine, a direct stimulant of mTOR, will reverse the impaired mTOR phosphorylation in the skeletal muscle of cirrhotics. The consequent increase in protein synthesis reduced autophagy will result in an increase in skeletal muscle mass. Investigators will test these hypotheses by quantifying the response to acute and long term (3 month) administration of hydroxymethyl butyrate (HMB) enriched essential amino acid compared with an isonitrogenous isocaloric non-essential balanced amino acid mixture (does not stimulate protein synthesis) in cirrhotic patients. Fractional protein synthesis rate (FSR) in skeletal muscle, responses of the molecular regulatory pathways of skeletal muscle protein synthesis, and autophagy flux will be quantified in the acute and long term protocols. Tracer studies using L-[D5]-phenylalanine (Phe) as a primed constant infusion (prime 2µmol.kg-1.hr-1; constant 0.05 µmol.kg-1.hr-1) with and L [ring-D2] tyrosine, forearm plethysmography, and sequential skeletal muscle biopsies (total of 3 per study subject) will be used to quantify these outcomes. Anthropometric, clinical and body composition measures will be additional outcome measures for the long term intervention. Expression of regulatory signaling proteins, myostatin, IGF-1 (insulin like growth factor) , phospho-Akt, phospho-AMPK (activated protein kinase), phospho-mTOR and phospho-p70s6k will be quantified by Western immunoblots. Autophagy flux will be measured by quantifying expression of the autophagosome proteins.
In this project, we plan to evaluate whether a new, rotational thromboelastometry-guided algorithm (ROTEM) to guide hemostatic resuscitation decreases the use of allogeneic blood products, the total amount of bleeding, transfusion related side effects, thromboembolic complications and costs. Its effect on each patient's post-operative hemostatic profile is also measured. We plan to enroll 140 patients having ACLF with variceal bleeding randomized into two groups: one will be treated conventionally using clinical judgement and standard coagulation tests such as prothrombin time, platelet count, etc. the other treated using a ROTEM-based algorithm. They will be followed for development of rebleeding, complications of transfusion and any signs of infection after hospitalization
The project is essential to understand the impact of the COVID-19 pandemic in patients with Chronic Liver Disease (CLD). The impact has been felt due to direct risk of COVID infection in self, or in caregivers, lack of access to services during lockdown, interruptions in transplant listing and waitlist mortality. Briefly, the following points will be focused during the study. 1. Long haul COVID-19 related symptoms. 2. Impact on health and delay in interventions or drug therapy due to interruption of physical outpatient services. 3. Impact on emergency admissions due to refractory ascites, new decompensation, variceal bleeding etc 4. Impact on delayed transplant listing and waitlist mortality 5. Impact on post-transplant patients with lack of access to drug monitoring/ physical OPD 6. Impact on delay in interventions due to hepatobiliary malignancy. 7. Effects of COVID-19 infection, vaccination (single dose, two doses) and no vaccination and protective antibody levels in patients with chronic liver disease and post-transplant recipients. 8. Determination of dose protocol and need for booster vaccination in patients with CLD and post liver transplant recipients.
Sarcopenia is now a well-known complication of cirrhosis and various studies, including pediatric studies, have recognized it as a poor prognostic factor. At the molecular level, branch chain amino acids upregulate muscle protein synthesis by acting through the mTOR pathway. Although effect of Branch Chain Amino acids has been studied extensively with respect to hepatic encephalopathy in cirrhotic adults, there is paucity of literature on the effect of BCAA on sarcopenia and frailty. Also, there is very limited data on the effect of BCAA therapy in children with chronic liver disease. Through this study, we aim to assess the effect of BCAA therapy on Mid Arm Muscle Area in cirrhotic children after 12 weeks. Our secondary objective will be to study the prevalence of sarcopenia in children with CLD using cut-off as Mid Arm Muscle area less than 2SD (using published centiles) and muscle thickness (quadriceps and biceps) on ultrasound, and to study serum follistatin levels in those with or without sarcopenia. Other secondary objectives will include determination of mTOR gene expression at baseline and 7 days of BCAA therapy and change in creatinine height index after 12 weeks of BCAA therapy, occurrence of clinically significant events in the BCAA group vs placebo group and to study the increase in MAMA and USG muscle thickness after 6 months of BCAA therapy.
In critically ill patients with liver disease like cirrhosis or ACLF, fluid therapy needs to be instituted after identification of patients who will be fluid responsive and initiate appropriate inotropes early to prevent the mortality associated with fluid overload. The parameters and methodology used for assessing fluid responsiveness have been studied earlier, but the optimum method is not established. Existing recommendations based on data regarding fluid responsiveness and choice of fluid for resuscitation from intensive care units in general cannot be applied to those with liver disease as the hemodynamic alterations that occur with liver disease, presence of hypoalbuminemia at baseline and presence of cardiac dysfunction interfere with the conventional methods of fluid status assessment, fluid responsiveness as well as the response to different types of resuscitation fluids. Therefore the investigators attempt to compare various methods to estimate current intravascular volume status of patient which could be helpful in guiding fluid therapy.
This is a phase II pilot study designed to assess the safety and efficacy of danazol for treatment of cytopenias in patients with CPC A/B cirrhosis. Subjects with or without telomere mutations and/or shortened telomeres will be treated with danazol 600 mg per day by mouth for a duration of 24 months. The goal will be to treat a total of 10 patients.
The goal of this research is to validate novel non-invasive Magnetic resonance imaging (MRI) biomarkers to detect Gastroesophageal varices (GEV) in patients with cirrhosis, including fractional flow change in the portal vein and elevated azygos flow. End-stage liver disease (cirrhosis) is characterized by advanced fibrosis, liver failure, and portal hypertension. There are many causes of cirrhosis, including viral hepatitis, alcohol abuse, and perhaps most importantly, non-alcoholic fatty liver disease (NAFLD) and its aggressive subset, non-alcoholic steatohepatitis (NASH). 3 million new cases of end-stage liver disease (cirrhosis) are expected over the next decade. In cirrhosis, portosystemic collaterals that shunt blood away from the liver develop due to increased portal pressure. Gastroesophageal varices (GEV) are the most clinically relevant because they can cause fatal internal bleeding. GEV bleeding carries ~20% mortality at 6 weeks, and ~34% overall mortality. Identification of at-risk varices, prior to bleeding, is of paramount importance to initiate primary prophylaxis. To identify and treat at-risk patients, current guidelines recommend regular esophagogastroduodenoscopy (EGD) and variceal band ligation. Detection of high-risk GEV is key to initiating primary prophylaxis, which can reduce mortality by 50-70%. However, endoscopy is invasive and often unnecessary when no treatment is required. Therefore, the American Association for the Study of Liver Diseases has identified the development of "non-invasive markers that predict the presence of high-risk varices" as a major unmet need.