View clinical trials related to Liver Cirrhosis.
Filter by:This is an observational study that will explore the hypothesis that by combining data from patients with liver disease with novel blood biomarkers, single nucleotide polymorphism (SNP) analysis and faecal microbiome analysis. The Investigators will improve diagnosis of liver fibrosis compared to the current available diagnostic tools.
Through the parameters of liver stiffness and spleen stiffness obtained by combi-elastography technique, summarize and analyze the warning index of esophagogastric variceal bleeding in patients with cirrhosis, so as to provide a new and valuable technique for clinical diagnosis.
Liver fibrosis caused by hepatitis B virus (HBV) infection is easy to progress to liver cirrhosis and liver cancer, with great harm and poor therapeutic effect. Nucleos(t)ide analogues (NAs) are the most commonly anti-HBV drugs currently . Long-term use of NAs can inhibit HBV DNA and achieve the purpose of reducing poor prognosis. However, adverse prognosis, such as liver cirrhosis and liver cancer, cannot be completely eliminated even under the status of virologic inhibition under THE action of NAs. Current studies have shown that the lower the HBV surface antigen (HBsAg) is, the better the long-term prognosis is. As another anti-HBV drug, pegylated-interferon-α (peg-IFN-α) has the immune regulation effect that NAs do not have, which can bring irreplaceable effects in HBsAg reduction and liver fibrosis reversal. Therefore, the combined therapy of NAs and peg-IFN-α is a hot issue in the field of liver diseases over the world, but the research and application of the combined therapy in patients with liver fibrosis are very few. The preliminary results of our previous research showed that the combined therapy of peg-IFN-α and NAs in patients with HBV related fibrosis were safe, and had a significant effect on HBsAg decline. On this basis, this study intends to carry out a multicentre, non-randomized concurrent controlled trial, comparing the safety and efficacy between combined therapy (peg-IFN-α plus tenofovir) and tenofovir monotherapy in patients with liver fibrosis, especially focusing on HBsAg's decline and clearance, and the improvement of liver fibrosis degree, in order to find a better therapy, and to guide the clinical decision making.
The presence of varices is a serious complication of portal hypertension in liver disease. To prevent variceal haemorrhage, screening and surveillance aims to detect high-risk varices related to varices size and determine the need for primary prophylaxis. Varices size evaluated by endoscopists might not be perfect reference, influenced by experience and machine. Endoscopic ruler is a novel tool to measure the varices size under the endoscopy. The investigators aim to evaluate the bias of varices size between endoscopists and endoscopic ruler as the reference.
As we all know, the early diagnosis and accurate staging of liver fibrosis are very important to reduce the incidence of liver cirrhosis and liver cancer. And the accurate evaluation of hepatic fibrosis is of great significance to the prediction of residual liver function after liver surgery. Therefore, clinicians pay more and more attention to the qualitative and quantitative diagnosis of hepatic fibrosis, liver cirrhosis and hepatic steatosis involved in diffuse liver diseases(such as fatty liver, viral hepatitis, autoimmune hepatitis ). And now, liver biopsy is commonly used as the gold standard for the evaluation of steatohepatitis and fibrosis. However, this test is invasive, has low patient acceptance. So more and more clinicians recommend non-invasive methods to qualitatively and quantitatively evaluate the liver steatosis, fibrosis and cirrhosis in diffuse liver diseases. At present, serum markers, ultrasonic elastography and magnetic resonance imaging have good accuracy in the non-invasive detection and evaluation of liver cirrhosis. However, serum markers are not liver-specific, and a single serum marker is not enough to accurately reflect the degree of liver fibrosis. Furthermore, whether the non-invasive liver fiber diagnostic model is suitable for patients with liver disease in China remains to be further verified. At present, transient elastography has been recommended for the non-invasive staging of hepatic fibrosis by the clinical practice guidelines of the European Association for liver Research and the Asia-Pacific Association for liver Research. But as serum markers, it still has low sensitivity and specificity in the diagnosis of early hepatic fibrosis, and is highly operationally dependent. With the development of MRI technology, some MRI quantitative techniques, such as T1mapping, T2mapping,Intravoxel incoherent motion diffusion-weighted magnetic resonance imaging(IVIM-DWI), dynamic contrast enhanced magnetic resonance imaging(DCE-MRI) can be used to qualitatively and quantitatively diagnosis of liver fat, hepatic fibrosis and cirrhosis. And iterative decomposition of water and fat with echo asymmetry and least squares estimation quantification sequence(IDEALIQ) usually used to evaluate liver fat. The existing research results showed that MRI quantitative techniques has a high value in quantitative diagnosis of advanced hepatic fibrosis and cirrhosis. But it still has some limitations in quantitative diagnosis of early liver fibrosis. And what's more,some of the research results still can not reach a consensus. Therefore, based on the multi-parameter potential of MRI and the characteristics of metabolic evaluation. This study will adjust some of the parameters of MRI quantitative techniques, and through large sample datas, combined with a variety of quantitative techniques to explore the application value of MRI quantitative techniques in the quantitative diagnosis of liver diffuse lesions, especially in the early stage of liver fibrosis.
Efficient immunosuppressive therapy and improved surgical techniques have developed liver transplantation as a well-established and life-saving treatment. The 1-year survival rate of approximately 85-90%. Acute cellular rejection (ACR) is one of the main causes of liver dysfunction (LD) after liver trans- plantation, occurring 30% to 70% of transplanted patients and potentially leading to allograft failure. In addition to ACR, presence of sepsis, drug injury, viral infections like CMV or recurrence of viral hepatitis is also other causes of graft dysfunction. Laboratory tests are commonly used as less invasive methods of monitoring allograft rejection, but they are not specific to rejection and are often elevated in other types of graft dysfunction too. Till date the immunosuppressive regimen in liver transplant recipient is considered as an art in absence of an objective measures of the immune state. Therapeutic drug monitoring has little value in the assessment of the immune state and is always used as a supportive guide. The development of specific immune monitoring assays to measure the net immunosuppressive state in a transplant recipient would allow a more individualized therapeutic regimen Patients with altered gut microbiota had more chances of infection and longer course of hospital stay. Probiotics could mediate beneficial effects in graft rejection. Dysbiosis activates T cells through PAMPS and causes the inflammatory injury in the graft liver. The studies shown that lower Eubacteria, Bifidobacterium, Faecal bacterium and Lactobacillus with abundance of Enterococcus and Enterobacteriaceae. They restored to near normal after transplant in majority. This is known that there is a dysbiosis in the natural history of ACLF or decompensated cirrhosis, and often correlated to complications like-endotoxemia, sepsis, worsening liver failure and poor survival. This has led to consider fecal microbiota modulation as an emerging therapy. Liver transplant and consequent recovery, there is over all change in the recipient homeostatic milieu as well as the immune milieu and the same may be happening to the gut flora too.It's well known that liver has animprint of resident gut flora. The preliminary rat model showed alteration of gut flora to predict the development acute cellular rejection before it happens. Similarly the risk of infection is more among transplant recipients with decreased microbial diversity after liver transplant. However the data is scanty and there is an urgent need to understand the mechanism.. The present study was necessitated in view of emerging role of gut microflora and its influence on immune remodeling for the prediction of infection, rejection and may be an early biomarker for the graft dysfunction. This may be of varied cause in liver transplant recipients along with its impact on overall immune status. Uniqueness of the present study will be to understand the mechanism of development of sepsis or graft dysfunction in due course of time using high-throughput tools of single cell analysis in whole blood and gut microbiota alterations among liver transplant recipient as a cause for graft dysfunction in first year of live donor liver transplant.
This study aims to determine whether a breath test could be used for early detection of hepatic fibrosis, cirrhosis or hepatocellular carcinoma. Patients who are attending for a planned liver outpatient services or investigations will be approached to provide a breath sample. Multi platform mass spectrometry analysis will be performed to establish volatile biomarkers that can discriminate between fibrosis, cirrhosis and hepatocellular carcinoma.
Management of ACLF is mainly supportive. The poor outcomes lead physicians to consider liver transplantation as an option, even if controversial. In sicker recipients, LT results in immediate survival, but poor medium-term survival rates in some studies. The scarcity of deceased donors obliges to maximize LT success. Alternative strategies, as living-donor LT, should be explored. LDLT has impressive results in Eastern centers, but it is restrained in Western countries, due to potential life-threatening complications in the donor.
Positron Emission Tomography (PET) provides a valuable tool for the diagnosis and staging of liver fibrosis. Activation of hepatic stellate cell (HSC) is a key link in the pathophysiological development of liver fibrosis. In human liver tissue, fibroblast activation protein (FAP) was only expressed in active HSCs and fibroblasts, but not in static HSCs. Therefore, FAP has become an excellent target for diagnosis and treatment of liver fibrosis. Recently, radionuclide-labeled fibroblast activation protein inhibitors (FAPI) as a new novel positron tracer has shown to be effective to detect various cancers. In this prospective study, the investigators will use the most advanced imaging equipments, integrated PET/MR, and PET/CT with gallium-68 (68Ga) -FAPI to image patients with or suspected of liver fibrosis, the aim is to explore the value of 68Ga-FAPI hybrid PET/MR and PET/CT in liver fibrosis.
Newly development of capsule endoscopy provides a comfortable and minimal invasive modality which is an alternative to conventional esophagogastroduodenoscopy(EGD). The use of capsule endoscopy beyond the small bowel is increasing and several capsule endoscopy systems have been introduced for the examination of the esophagus and colon. The current capsule endoscopy systems are less effective for the upper gastrointestinal tract examination. Short transit time in the esophagus and the passive movement of the capsule makes it more difficult to identify or visualize the lesion comparing with traditional EGD. The sensitivity rate of esophageal varices detection from capsule endoscopy was ranging from 65% to 80%. In order to control the capsule in the gastrointestinal tract for better visualization, many methods are invented. Magnetically assisted capsule endoscopy systems and string-mounted capsule endoscopy are applied in many studies. Magnetically assisted capsule endoscopy system and string-mounted capsule endoscopy are used to control the capsule endoscopy for elongating esophagus transit time to have a better visualization of the esophagus. The InsightEyes EGD System combines the string and magnetic assisted capsule endoscopy system to provide a real-time high-quality image during the examination. On the other hand, 3D image processing can be used for distinguishing the esophageal varices and normal folds well, theoretically. Thus, in this study, the investigators combine string, magnetically assisted capsule endoscopy systems, and 3D image processing together to form a new system for improving the detection of esophageal varices and other gastric lesions.