View clinical trials related to Liver Failure.
Filter by:This is a prospective, multi-center, controlled, randomized, pivotal study to evaluate the safety and effectiveness of the VitaSmart Liver Machine Perfusion System by comparing clinical outcomes in patients undergoing liver transplantation with ex-vivo liver preservation using static cold storage (SCS) followed by hypothermic oxygenated machine perfusion (HOPE) versus SCS only.
The definition and diagnostic criteria of acute-on chronic liver failure (ACLF) differed evidently between the East and the West due to the difference in the underlying etiology. Liver transplantation is the most effective treatment to reverse the progress of ACLF and improve the survival rate of patients. The purpose of this study is to explore the accuracy of the two diagnostic criteria of EASL-CLIF and APASL ACLF in assessing the survival rate of patients with liver cirrhosis after LT.
Acute liver failure patients posed high mortality rate despite receiving standard therapy. The severity and mortality even higher in patients with underlying liver disease. Acute liver failure cause hyperinflammatory response in early stage and immunoparalysis in later stage. The surge of proinflammatory cytokines leads to multiorgan failure and more liver injury. Subsequent immunoparalysis may lead to lethal secondary infections. Liver support system had been used in acute and acute ontop chronic liver disease for last several decades. Double plasma molecular adsorption system (DPMAS) is one of the promising non-biological liver support system that have been extensively investigated in acute ontop chronic liver failure from hepatits B viral. DPMAS circuit consist of BS330 (bilirubin adsorber) and HA330 (Cytokines adsorber). Thus, DPMAS can also remove various cytokines. The effect of DPMAS on immune function in these patients has not been explored. Recent randomized controlled trial by Srisawat et al. demonstrated improvement of mHLA-DR in septic shock patients who received polymyxin B extracorporeal therapy compare to control arm. Since liver failure show change of immunological profile resemble to sepsis. Investigators proposed that removal of toxic liver toxins and lethal cytokines by DPMAS will improve immunological profiles in acute ontop chronic liver failure patients. Investigators plan to conduct a randomized controlled trial in acute ontop chronic liver failure patients who admitted to intensive care unit. Investigators plan to compare the immunomodulatory effects of DPMAS with standard treatments.
The CYTOHEP study is a prospective, randomized, single center, open-label, controlled intervention trial to assess the benefit of extracorporeal hemoadsorption using the CytoSorb device in patients with acute-on-chronic liver failure. The primary goal for this trial is to assess whether the CytoSorb device used in addition to continuous renal replacement therapy (CRRT) will be able to significantly reduce bilirubin in the patient blood as compared to the control group treated with CRRT alone (i.e., without extracorporeal hemoadsorption). The rationale for this study is based on considerations about the role of systemic inflammation in acute decompensation of liver cirrhosis and ACLF, in-vitro data of the effectiveness CytoSorb for the removal of molecules with a pathophysiological role in acute-on-chronic liver failure, and recent reports on the successful use of extracorporeal hemoadsorption in combination with CRRT in critically ill patients with acute liver dysfunction.
This multi-center, open-label, parallel-controlled, single-dose Phase 1 study is being conducted to directly characterize the pharmacokinetic (PK) profiles and safety of Jaktinib following administration of a single oral dose in subjects with varying degrees of hepatic impairment compared to healthy matched control subjects with normal hepatic function(matched by age, weight, and sex).
In this prospective randomized controlled trial, investigator aim to evaluate the impact of early initiation of CRRT on outcomes in patients with acute liver failure with cerebral edema and hyperammonemia in improving cerebral edema and clinical outcomes. Investigator also aim to evaluate the effects of early initiation of CRRT on systemic hemodynamics (cardiac output and systemic vascular resistive index, extravascular lung water and lung permeability index), endothelial function and coagulation, microcirculation (as assessed by lactate clearance and central venous oxygen saturation), mitochondrial function. Patients with ALF who meet the inclusion and exclusion criteria. Group 1: CRRT initiation within the first 12 hours Group 2: CRRT would be initiated i) In patients with worsening hyperammonemia despite two sessions of plasma-exchange ii) Patients meeting renal indications (hyperkalemia, volume overload, oliguria or metabolic acidosis etc)
Monitoring and Assessment: Transient Elastography will be performed in morning hours using the FibroScan apparatus (Echosens), which consists of a 5-MHz ultrasound transducer probe mounted on the axis of a vibrator. The tip of the transducer (M-or XL probe) will be covered with a drop of gel and placed perpendicularly in the intercostal space, with the patient lying in dorsal decubitus position with the right arm in the maximal abduction. Under control, in time motion and in A-mode, the operator will choose a liver portion within the right liver lobe, at least 6-cm thick and free of large vascular structures, and the gallbladder. Liver stiffness (LS) will be measured on a cylinder of hepatic tissue of 1 cm of diameter and 4 cm of length. For assessing the splenic stiffness (SS), the patient will be in supine position with left arm in maximum abduction. Ultrasonography will be used to identify and locate the spleen parenchyma, to choose the right place for SS measurement, and to measure the spleen diameter (long axis). Transducer will be placed in the left intercostal spaces, with location indicated by the ultrasound. A median value of 10 successful acquisitions, expressed in kPa, will be kept as a representative of the LS and SS measurements. The LS and SS measurement failure will be recorded when no value will be obtained after at least 10 shots. The results will be considered unreliable in the following circumstances: valid shots fewer than 10, success rate < 60%, or interquartile range / LS >30 %. Liver and splenic stiffness, LSPS score (LS measurement × spleen diameter / platelet count), Platelet count to spleen diameter ratio (PSR) will be calculated. Patient will also undergo upper g.i. endoscopy on same day. HVPG and TJLB will be done if indicated. The study will assess whether the stiffness scores correlate with presence of esophageal varices. Optimum cutoffs will be calculated for predicting the presence of esophageal varices. - Study design: A Cross-Sectional Study - Study period: 12 months - Sample size with justification: Consecutive Patients of ACLF from approval of study to 12 months. ACLF patients will be screened and eligible patients will be taken in to the study. - Intervention: Patients of ACLF will undergo upper g.i. endoscopy, liver and splenic stiffness measurement. HVPG and TJLB will be done in the patients only if clinically indicated.
This single-center prospective observational study aims at characterization of pathogenesis of ACLF. There will be three different cohorts investigated with the main endpoint mortality in these groups. 1. SAPIENT = Sepsis ACLF patients, to investigate the differences between ACLF and sepsis in cirrhosis 2. PROACT = Portal mediators as ACLF Targets, to assess portal venous biomarkers in patients receiving TIPS leading to ACLF and identify potential treatment targets 3. ELITE = prEdictors of beneficial LIver Tx in ACFL patiEnts, to assess in ACLF-patients receiving liver transplantation predictors of survival, which may improve selection of ACLF-patients for liver transplantation Secondary endpoints will be different in the three different cohorts and biological material will be collected for separate ancillary studies.
ACLF and cirrhotic patient have deranged coagulation parameters and this coagulation parameters altered when this group of patients undergoing dialysis because of renal failure. this group of patients is also high risk of sepsis. Most common organ involved during sepsis leading to organ failure is renal. So, all this cascade increases the risk of bleeding as well as coagulation failure. Currently there are no studies evaluation the coagulation status in patients with cirrhosis undergoing dialysis. Further there are no studies evaluating the utility of these global tests of coagulation as a guide to judicious blood transfusion in these patients to prevent bleeding. Further there are no studies comparing the two different modalities of assessment.
Citrate has been proposed as anticoagulation of choice in continuous renal replacement therapy (CRRT). However, little is known about the pharmacokinetics (PKs) and metabolism of citrate in liver failure patients who require CRRT with regional citrate anticoagulation (RCA).