View clinical trials related to Hepatic Insufficiency.
Filter by:A Prospective, Single-Center trial, in Patients With Acute on Chronic Liver Failure. Study of Standard Medical Care Plus CytoSorb® Compared to Standard Medical Care Alone in a historical group.
Acute-on-chronic liver failure (ACLF) is a syndrome associated with a high short- term mortality. Early identification of patients at high risk is important to determine emergency for transplantation and prioritize the need for intensive care unit. Unbalanced systemic inflammatory response is closely associated with mortality in ACLF patients. This systemic inflammatory response in ACLF increases liver and splenic stiffness stiffnes, which can be detected by transient elastography. Very few studies have been done in past evaluating liver and splenic stiffness as prognostic tool in patients of ACLF. These studies have taken only single value of liver and splenic stiffness as prognostic tool. No follow up study have yet been done assessing acute change in liver and splenic stiffness in ACLF. In this study, we hypothesize that acute change in liver and splenic stiffness at 7th & 14 th day predicts outcome in ACLF patients. With this study, we aim to evaluate whether acute changes in liver and splenic stiffness at 7th & 14th day predicts outcome at 3 months in patients of ACLF.
ACLF is a syndrome characterized by rapid deterioration of liver function in chronic liver disease or undiagnosed chronic liver disease, with a high risk of short-term death. Both CMA and EASL mentioned that there is currently lack of specific drugs and treatment of liver failure. For patients with ACLF who are still graded as 2 or 3 after active medical treatment and/or artificial liver therapy, and the CLIF-C score is less than 64 points, it is recommended to perform liver transplantation as soon as possible within 28 days. Early liver transplantation is crucial for improving the prognosis of ACLF, reducing the risk of postoperative infection, progression from early ACLF to late ACLF, and further improving the 1-year post-transplant survival. The current priority for liver allocation based on MELD-Na can't give priority to liver donor matching to ACLF 1-2. Therefore, expanding the donor liver pool is an urgent need for early treatment of patients with ACLF. France team reviewed the development of APOLT to RAPID technology in liver transplantation for liver cirrhosis. Among them, 9 cases underwent two-step hepatectomy (including 5 cases of orthotopic assisted liver transplantation and 4 cases of RAPID surgery), 8 patients survived until the end of follow-up. Based on the experience of clinical practice, our center proposes and designs a clinical study of sequential adult left lateral lobe liver transplantation (SALT) for the treatment of early ACLF (Grade 1 and 2). On the basis of APOLT and RAPID, the safety and efficacy of sequential adult left lateral lobe liver transplantation were evaluated for the above patients.
Acute on chronic liver failure (ACLF) is a syndrome characterized by acute decompensation of chronic liver disease associated with organ failures and high short- term mortality. Development of systemic inflammation and subsequent organ failures determines is associate with poor outcome and short-term mortality. Previous studies have shown that endothelial injury leading to increase in levels of and exhaustion of its cleaving protein a disintegrin and metalloproteinase with a thrombospondin type 1 motif, member 13 (ADAMTS 13) which promotes the platelet microthrombi formation and subsequent organ ischemia. We propose that the vWF : ADAMTS 13 ratio can be predict the organ failure development and subsequent mortality in ACLF patients, which is considered to be a inflammatory state.
Acute-on-chronic liver failure (ACLF) refers to the acute deterioration of liver function in patients with chronic liver disease. Neutrophils are a major component of the innate immune system, and previous studies have revealed enhanced production of neutrophil extracellular traps (NETs) in ACLF. However, there is still a lack of systematic research on the correlation between NETs and the prognosis of ACLF. We screened NETs related biomarkers through bioinformatics analysis, which play an important role in the diagnosis of ACLF. This study will explore whether these NETs related biomarkers also play an important role in the prognosis of ACLF and further investigate their role in the pathogenesis of ACLF.
Pediatric acute liver failure (PALF) is associated with very high mortality and morbidity with native liver survival varying between 21 to 75%.Hyperammonemia manifesting as hepatic encephalopathy and causing cerebral edema isresponsible for poor neurological outcome in ALF. Ammonia lowering measures have led to improvement in HE and higher native liver survival. L-ornithine L-aspartate (LOLA), a salt of natural amino-acids ornithine and aspartate, is an importantammonia scavenging drug. It acts as a substrate for urea cycle in liver and also converts ammonia to glutamine in perivenous hepatocytes as well as in the muscles.This drug has been shown to reduce ammonia and improve hepatic encephalopathy in cirrhoticadults.However, the issue with this drug is that the glutamine formed can reconvert to ammonia by the action of glutaminase, possibly, the reason why it failed to show decrease in ammonia and improvement in native liver survival in a randomized controlled trial in adult ALF. In western countries, ornithine phenylacetate has been used where ornithine converts ammonia to glutamine and phenylacetate then binds to this glutamine to form phenylacetylgutamine and eliminates it. Therapeutic plasma exchange (TPE), both high volume and standard volume has been shown to improve native liver survival in adults with ALF and is the standard of care in management of ALF and a grade 1 recommendation by all eminent liver societies.TPE leads to decreased ammonia. Although rate of ammonia formation is multiple times higher than rate of ammonia removal by plasmapheresis, this ammonia reduction is an indirect effect of glutamine removal by TPE. Glutamine, thus, acts as a reservoir for clearance of ammonia (in muscles and perivenous hepatocytes).In contrast to adults, the response to therapeutic plasma exchange has not been as encouraging inchildren, yet, most centers continue to use it based on recommendations in adults. Based on the knowledge that LOLA converts ammonia to glutamine and TPE clears glutamine from plasma, the investigators hypothesize that LOLA would act in synergestic way with TPE to lower ammonia levels, resulting in improvement in HE and better native liver survival in pediatric ALF. The goal of this clinical trial is to compare L-ornithine L-aspartate and therapeutic plasma exchange versus plasma exchange alone in lowering ammonia and improving outcomes in patients with pediatric acute liver failure.
Hepatic encephalopathy is a frequent complication of both acute liver failure (ALF) and acute-on-chronic liver failure (ACLF) and could be responsible among other neurological complications of residual impairment after liver transplantation. Specific metabolomic studies have shed light into pathophysiology. Nevertheless, whether HE metabolomic fingerprints differ between HE in ALF and HE in ACLF and their evolution after liver transplantation (LT) is unknown. The aim of our study is to analyse the metabolomic fingerprint in plasma of 2 different groups of patients before and after LT: - hospitalized patients with ALF and HE - hospitalized patients with ACLF and HE We will analyse metabolomic results to explore if there is any difference in metabolomic fingerprints between these 2 groups and if LT modify the metabolomic fingerprint in plasma in these 2 groups and in the same way. We will collect blood samples in these 2 groups on the day of HE occurring and then on day 1, day 7 and day 30 (+/- 2 days) after LT. We aim to enroll 10 patients in ALF group and 20 patients in ACLF group. Inclusion criteria are defined as age > 18 years, patient presenting with ALF (Synthetic liver failure (INR > 1.5) with hepatic encephalopathy (grade 1-4 of West-Haven classification), without pre-existing hepatopathy, HE beginning within <26 weeks) or ACLF (≥ grade 1 from CANONIC criteria), and clinical HE (grade 1-4 of West-Haven classification) on the day of enrolment. Exclusion criteria are defined as age < 18 years, absence of HE, LT without pre-existing HE, patients who already undergone a LT, legally protected person. An EDTA blood sample will be collected, centrifuged and frozen on the day of enrolment, then on day 1, day 7 and day 30 (+/- 2 days) after LT. Metabolomic analyses will be performed by different techniques but especially with high resolution liquid phase mass spectrometry in collaboration with CEA. Statistical analyses will be both univariate (Mann-Whitney or Wilcoxon tests) and multivariate (with a classical and adapted method for metabolomic studies: Partial Least-Squares Discriminant Analysis (PLS-DA)). We expect to identify different metabolomic fingerprints between HE in both ALF and ACLF patients as well as different kinetics for symptoms resolution after LT. The long-term objective is to target the specific metabolic pathways for each group in order to allow development of new targeted drugs against HE in these 2 different conditions.
This is a prospective single-center dose escalation study of the administration of the microencapsulated hepatocyte therapy in adult liver failure. The purpose of the study is to determine the maximum tolerated dose of microencapsulated hepatocytes in liver failure patients and its effectiveness in treating the disease.
Acute Liver Failure in children is associated with high mortality without liver transplantation. In addition, donor organ shortage makes it difficult to provide this treatment to every potential patient. Liver transplantation is life-saving but it carries the risk of major surgery and complications from lifelong anti-rejection drugs to suppress the immune system. If bridged across the immediate crisis following acute liver failure, the immense regenerative potential of the liver means that the patient's own liver may 're-grow'. This period is very time sensitive. Unfortunately, if the vital synthetic and detoxification function of the liver is not provided, the patient will often die before the liver can re-grow. Transplantation of liver cells (hepatocytes) can provide this 'bridge' with considerable advantages over whole organ transplantation. Firstly, hepatocytes are derived from donor livers which are otherwise unsuitable for transplantation. Secondly, unlike whole organs, they can be frozen and stored, thus act as an 'off the shelf' treatment. Thirdly, the technique of hepatocyte transplantation within microbeads coated with alginate (a gel originating from seaweed) and infused into the abdominal cavity is much less invasive than liver transplantation. Finally, the alginate protects the cells against the body's immune system, avoiding the need for immunosuppressive drugs and the associated major risks. Furthermore, preclinical work in King's College Hospital has shown that the addition of support cells called mesenchymal stromal cells (MSCs), can significantly improve the ability of hepatocytes to survive and function within the alginate microbead. The HELP trial is a Phase 1/2 safety and tolerability study of infusion of HMB002 (an optimal combination of hepatocytes and mesenchymal stromal cells put together in peptide-alginate microbeads) into paediatric patients with acute liver failure. This novel cellular therapy may act as a bridge treatment to liver transplant or lead to regeneration of the native liver.
The purpose of this study is to evaluate pharmacokinetics (PK) and safety of a single oral dose of ulonivirine in participants with mild or moderate hepatic impairment (HI). It is hypothesized that the area under the plasma concentration-time curve from dosing to (extrapolated) infinity (AUC0-∞) in participants with mild or moderate HI is similar to that of healthy control participants.