View clinical trials related to Hepatocellular Carcinoma.
Filter by:All international guidelines recommend 6-monthly ultrasound surveillance for patients at risk for liver cancer (hepatocellular carcinoma or HCC), such as patients with cirrhosis. The aim of surveillance is to detect HCC at an early stage when it is still potentially curable. Currently only 4 out of 10 HCCs are detected at the early stage. Ultrasound surveillance for HCC has a wide ranging sensitivity, dependent on many factors such as operator experience, patient body habitus and liver parenchymal heterogeneity due to chronic liver disease and cirrhosis. In a select group of patients, surveillance ultrasound can be suboptimal or near non-diagnostic. Currently no guideline offers an alternative surveillance tool for patients who have suboptimal surveillance ultrasounds.
This is an prospective, interventional, non-randomized multicenter phase II study to evaluate the safety, tolerability and efficacy of Cabozantinib as a second-line therapy (after one prior systemic therapy) in patients with intermediate to advanced HCC (BCLC B/C) and concomitant impaired liver function CP score B7-8. Subjects who meet all study eligibility criteria will receive Cabozantinib 40 mg daily orally. Subjects will receive Cabozantinib as long as they continue to experience clinical benefit in the opinion of the Investigator or until there is unacceptable toxicity or the need for subsequent systemic anti-cancer treatment or liver directed local anti-cancer therapy. Treatment may continue in this fashion after radiographic progression as long as the Investigator believes that the subject is still receiving clinical benefit from Cabozantinib and that the potential benefit of continuing Cabozantinib outweighs potential risk. In addition, all subjects will be treated with best supportive care. This excludes systemic anti-cancer therapy and liver-directed local anti-cancer therapy.
This project is a pilot study to interrogate the potential of LMS as a predictive tool for the selection of therapy for HCC patients. The reliability of LMS to predict patients' response following HCC therapy will leverage on an algorithm that is built from the pool of MRI scans from HCC patients pre- and post-treatment. In the study, MRI scans of 30 HCC and metastatic colorectal cancer (CM) patients (ratio of 4:1) will be analysed. CM cancer patients include patients whose cancers metastasized from colorectal cancer or primary liver cancer. These patients will either receive one of the treatment, surgical resection, Y90 or systemic therapy. A total of 4 MRI scans will be taken for each patient; the first MRI scan will be taken within a month before treatment initiation and the remaining MRI scans will be taken at the 1st, 3rd and 9th month post-initiation of treatment.
Hepatobiliary tumors have a poor prognosis and high individual heterogeneity, so it is of great significance to find important prognostic markers and then screen out specific subgroups of people; meanwhile, chronic hepatitis, cirrhosis, and healthy control participants also need to show the evolution of tumors and discover specific diagnostic markers as a control group. Moreover, targeted therapy and immunotherapy make cancer treatment enter a new field, but only part of patients achieve response rates and reach clinical benefit. However, these drugs are expensive and can cause treatment-related adverse events. Therefore, reliable biomarkers identification is needed to help predict the response to these treatment options in order to screen patients with better responsiveness and avoid wasting money. Multi-omics research can reveal the characteristics of hepatobiliary tumors more deeply and find meaningful therapeutic targets. Therefore, 450 patients at least 18 years of age with hepatobiliary tumors were included in this study.
An open-label multi-center phase Ib/II study to evaluate the efficacy and safety of anti-PD-1/CTLA-4 bispecific antibody AK104 plus lenvatinib as the first-line therapy for patients with advanced hepatocellular carcinoma.
This is a single arm, open-label, non-randomized and single-center phase I/II clinical study, to evaluate the the safety, tolerance and efficacy of Lenvatinib plus Camrelizumab as first-line therapy in patients with advanced Hepatocellular Carcinoma.
Currently the available first line palliative therapy for advanced HCC is Sorafenib and Lenvatinib of which Lenvatinib is tolerated better. Unfortunately, patients tend to progress after few months of therapy. Therefore it is imperative, to do trials by combinative therapy to the available therapy for added survival benefits and quality of life with advanced HCC. In this regard, Mebendazole appears to be a good choice for drug repurposing as it has shown very promising results either alone or in combination with other therapies in tumors of GI origin and CNS tumors. With regard to HCC Mebendazole has been found to be effective in vitro system of HCC and preclinical models. However no clinical trials have been initiated till now. The key hallmark features of HCC include activation of MAPK and angiogenesis which in turn are targeted by RTK inhibitors such as Sorafenib and Lenvatinib. In this regard Mebendazole has broad range of action by not only inhibiting angiogenesis and pro-survival pathways of MAPK, but by also inhibiting the secretion of MMPs and Tubulin polymerization which can all be beneficial in tumor regression and prevention of chemo-resistance in HCC. Mounting of a strong immune response plays an important role in identification of tumor antigen and thereby clearing of tumors. While Mebendazole can modulate the tumor, the data is scant with respect to the role of the drug. Hence repurposing Mebendazole as a combinatorial therapy appears a promising approach and forms the basis of the present work. We hypothesize that combinatorial therapy of addition of mebendazole to lenvatinib will prove more beneficial than lenvatinib alone in increasing the overall survival of patients with advanced HCC. To prove the mechanistic effects of mebendazole on HCC, we will also conduct a animal study in preclinical mice model of HCC with the help of our animal house facility. The animal study will help us to understand the additional benefits from mebendazole and lenvatinib with objective evidence of liver biopsy which is not feasible in humans.
The European NAFLD Registry is a prospectively recruited, observational study supporting the study of the clinical phenotype, natural history, disease outcomes and pathophysiology of Non-Alcoholic Fatty Liver Disease and Non-Alcoholic Steatohepatitis. The ultimate goals are to better understand the drivers of interpatient variation in disease pathophysiology and severity and to utilise this information to develop and validate biomarkers that, singly or in combination, enable detection and monitoring of disease progression and/or from NAFL through NASH to fibrosis and cirrhosis.
This trial is a multi-center, phase III, randomized (1:1) clinical trial. The aim is to explore the efficacy and safety of SBRT for perivascular hepatocellular carcinoma, compared with RFA.
The objective of this study is to evaluate the efficacy of lenvatinib in HCC subjects who have progressive disease after first line treatment with checkpoint inhibitors. Approximately 20 subjects will be enrollment to evaluate the efficacy and safety of lenvatinib. CT/MRI assessments will be made at end of first line treatment with checkpoint inhibitors, and every 8-12 weeks thereafter. Disease status will be determined at the site (ie. Investigator and/or radiologist) using RECIST version 1.1. The primary efficacy endpoint is response rate (RR) defined as proportion of subjects with SD/PR/CR per RECIST 1.1.