View clinical trials related to Liver Transplantation.
Filter by:Based on the follow-up data of elderly donation after cardiac death(DCD) donor liver transplant recipients from the CLTR, a database and official website for national data gathering. patients who met the enrollment criteria were screened for postoperative complications and survival for statistical analysis to understand the prognosis of patients and analyze the risk factors affecting their prognosis.
" 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. "
This is a parallel assigned, open-label, perspective trial studying the safety and efficacy of intensity-modulated radiotherapy (IMRT) combined with PD-1 Blockade and Lenvatinib for Hepatocellular Carcinoma (HCC) with Vp3 Portal Vein Tumor Thrombus (PVTT, Japanese Liver Cancer Study Group classification) before liver transplantation.
This is a prospective, multi-center, randomized study. The primary objective is to evaluate the feasibility and utility of TruGraf/TRAC Liver testing used in addition to standard of care measures of liver dysfunction to guide immunosuppression management.
There is still a discrepancy between the number of liver transplant candidates and the availability of liver grafts, resulting in waiting list mortality. To increase the supply of suitable liver grafts, extended-donor criteria allografts can be used. However, in the case of donation after cardiac death this is not without a risk. Donor after cardiac death (DCD) grafts have increased risk of primary non function and biliary complications, resulting in either retransplantation, patient morbidity or patient death. Due to uncertainty of their quality DCD grafts can be discarded. However, normothermic machine perfusion (NRP) has the potential to overcome these disadvantages of DCD liver grafts. In DCD livers the physiological abdominal circulation is simulated with in vivo, normothermic, oxygenated perfusion during the first two hours after cardiac death. With this perfusion technique, early ischemia can be reversed, surgical damage due to a hasty procedure can be prevented and organs can be tested on viability. In many countries, NRP is obligatory, however this is not the current golden standard in the Netherlands. The primary objective of this study is the utilization of livers after NRP. Secondary study parameters are reasons for graft discard or rejection at proposal, patient- and graft survival, biliary complications, cost assessment of NRP and outcomes of kidney and pancreas transplants. This multicenter, observational study will be performed on adult liver transplant recipients who have been allocated a DCD liver graft (Maastricht type III and V) of a donor above fifty years old. According to current national procurement protocol, grafts procured in region west will be retrieved with NRP followed by dual hypothermic oxygenated perfusion (DHOPE). Grafts retrieved in region East/North will be retrieved using standard rapid retrieval followed by DHOPE, if the donor is aged 50-60. Grafts from donors aged above 60 will undergo controlled oxygenated rewarming normothermic machine perfusion (COR-NMP) after DHOPE.
Investigators will conduct this single-center, prospective cohort study to explore the prevalence and risk factors of renal function progression in post-liver transplantation patients with renal impairment after renal biospy and to understand the the pathology of kidney disease in post-liver transplantation patients with renal impairment.
The hypothesis of this proof-of-concept study is that EPO increases the frequency, stability and/or function of Tregs in liver transplant recipients. We also hypothesize that EPO will have a greater effect in everolimus vs. tacrolimus treated LTR, thus providing the rationale for a subsequent clinical trial to utilize EPO in combination with everolimus as a more successful pathway toward tolerance.
Liver transplantation in children is highly successful with >80% having 20 years survival. Most pediatric liver diseases are potentially curable with liver transplantation and it is important to establish whether children who have undergone successful transplantation can expect a normal life expectancy or whether there will be a gradual decline in liver function and eventual graft loss. The most common reasons in late graft loss in children are unexplained graft inflammation ("idiopathic" post-transplant hepatitis) and graft fibrosis. PRO-C3, a disintegrin and metalloproteinase with thrombospondin motifs-generated neo-epitope marker of type III collagen formation, has been proved to be a marker of fibrosis in patients with NAFLD. The aim of this study is to explore the role of Fibrosis Panel(PRO-C3, PIIINP, TIMP-1, HA) in children received liver transplantation.
Prompt identification of allograft failure (AF) is highly desirable to address patients to liver retransplantation, in order to maximize results and preserve patients safety. Recently, sophisticated kinetic models became available, offering the possibility to predict 90-day AF with unprecedented accuracy, by computing data from the first 10 days after liver transplant (LT). The growing utilization of extended criteria and cardiac death donors stimulates the transplant community to further refine such predictive models and validate them on a larger scale population of patients across the nations. This study aims to develop new algorithms for the timely prediction of AF at 90 and 365 days using a prospective international cohort from high-volume centers, to validate them on a large retrospective cohort, to identify the best time for retransplantation, to stratify the risk of AF according to the graft type (i.e. DBD, ECD, DCD, LD), to weigh the effect of risk-mitigation strategies, and to assess the correlation with post-LT morbidity and mortality.
Postreperfusion syndrome during living liver transplants remains a serious concern for transplant anesthesiologists. This syndrome is responsible for decreases in systemic blood pressure, systemic vascular resistance, and cardiac output and can even lead to cardiac arrest. Delayed graft function and primary graft nonfunction are closely related to postreperfusion syndrome (Therefore, attenuating the syndrome during anesthesia is of great importance.