View clinical trials related to Liver Fibrosis.
Filter by:This will be a multicenter, double-blind clinical trial to evaluate the safety and efficacy of two doses of prolonged release pirfenidone, compared against placebo plus conventional therapy in patients with compensated liver cirrhosis. The study will be conducted in compliance with International Standard good clinical practices (GCPs) and the Declaration of Helsinki. The protocol is approved by a local Institutional Review Board and registered in clinical trials.gov.
Nonalcoholic fatty liver disease (NAFLD) is the most common liver disease globally, with an estimated prevalence of approximately 15 to 30%. The incidence of NAFLD is even higher, reaching up to 58%, in individuals who are overweight or obese. The pathogenesis of NAFLD is complex and not fully understood. The metabolism of carbohydrates contributes to the development of NAFLD, as it increases the enzymatic activity of lipid synthesis in the liver, depleting adenosine triphosphate (ATP) rapidly and causing stress on mitochondria and endoplasmic reticulum. The multifunctional protein Glycine N-methyltransferase (GNMT) plays a regulatory role in liver carbohydrate metabolism, and its expression is downregulated in the liver tissues of NAFLD. While weight loss and lifestyle adjustments are helpful in controlling NAFLD, effective pharmacological or healthcare interventions for NAFLD patients are currently lacking. Insulin resistance is crucial in the pathogenesis of NAFLD, suggesting that drugs improving insulin sensitivity, such as metformin, might have therapeutic effects. However, recent large-scale clinical trial results have not supported this hypothesis. Investigators propose that the mitochondrial inhibitory effects of metformin may be related to this discrepancy, and the negative effects may be reversed through food containing substances promoting GNMT gene expression, such as Ganwei (as know as "HepatoKeeper"). Preliminary animal experiments also show that the combined use of metformin and GNMT enhancers effectively eliminates liver lipid droplet accumulation and improves liver inflammation in a NAFLD mouse model, surpassing the effects of either drug used alone. Based on these findings, our team designed the medication treatment group for this clinical trial, aiming to investigate whether the combination of Ganwei and metformin produces a synergistic effect in humans. Ganwei compound herbal extract capsules contain extracts from natural foods such as Schisandra chinensis, Paeonia lactiflora, and Punica granatum. Among them, Paeonia lactiflora is known to contain components that enhance GNMT expression. Animal and cell experiments have demonstrated its potential for repairing liver damage and inflammation. This trial aims to assess the impact of orally administering Ganwei compound herbal extract capsules on participants and evaluate its effects on fatty liver, liver fibrosis, and metabolic indicators.
Liver fibrosis is the key step for progression to cirrhosis and liver cancer in patients with chronic hepatitis B (CHB). It is crucial to identify significant liver fibrosis in the treatment of CHB patients. Hence, the investigators aim to construct and validate a new nomogram model for evaluating significant liver fibrosis in CHB patients. The nomogram was based on a retrospective study of 259 CHB patients, who underwent liver biopsy. Through random grouping, 182 cases (70%) were included in the training set and 77 cases (30%) were included in the validation set. Biopsy pathological stage was used as the gold standard to screen the factors included in the model. The receiver operating characteristic (ROC), area under the ROC curve (AUC), calibration curve, and decision curve analysis were used to evaluate the diagnostic effect of this nomogram model. In addition, the investigators will compare the diagnostic efficiency of the new nomogram model with APRI, FIB-4, and GPR.
This study, it was aimed to investigate the relationship between serum regucalcin level and liver fibrosis level in patients with CHB infection.
The Visceral Adiposity Measurement and Observation Study
This study is aimed to compare the results and operating characteristics of liver stiffness measurement with the use of Fibroscan (EchoSens, France) and iLivTouch (Wuxi Hisky Medical Technologies Co., China) in patients with chronic liver diseases.
Liver T1rho is elevated in response to accumulation of extracellular matrix proteins during fibrosis. The presence of hepatic iron overload; however, can shorten the T1rho value. With proper correction, we can remove this confounding factor and improve the reliability of T1rho for early diagnosis of liver fibrosis. Patients with early-stage liver fibrosis confirmed by biopsy will be recruited at the Prince of Wales Hospital (Hong Kong). Thirty patients and twenty healthy volunteers will be recruited. The liver iron content will be measured using the established T2* MRI relaxometry. Breathhold black blood T1rho relaxometry will be used to collect T1rho data. The measured T1rho will be retrospectively corrected to remove the shortening effect caused by iron. We will use ANOVA to compare the measurement with and without fibrosis. We will use Pearson correlations between the disease state and the imaging measurements, and ROC analysis to determine the diagnostic value of the proposed method.
The study "Competitive Accuracy of Radiological Imaging Compared to Liver Biopsy in Patients With Liver Fibrosis" is designed to test the accuracy of non-interventional radiological imaging and compare its results with the "gold standard" liver biopsy. This is prospective non-randomized single patient group study.
The study is planned as a 3 part design with investigator and participant blinded (sponsor-open), placebo controlled, randomized, dose escalation in Part 1 and Part 2; and a randomized, open label design, in Part 3 (if conducted).
The aim of this study is to assess the effect of interval hypoxy-hyperoxic training (IHHT) on the arterial stiffness and elasticity of the liver tissue in patients with metabolic syndrome and on other components of the metabolic syndrome, and the possibility of their reversible recovery after training.