View clinical trials related to Liver Cancer.
Filter by:This study intends to evaluate the efficacy and safety of cryoablation combined with Cardonilizumab and Bevacizumab in hepatocellular carcinoma with pulmonary metastases.
This research study is being conducted to improve the quality of care of participants who have a diagnosis of gastrointestinal cancer (anal, colon, rectal, esophageal, stomach, small bowel, appendix, pancreas, gall bladder, liver, neuroendocrine tumor of gastrointestinal origin). This study has 3 components as follows- 1. Ensuring appropriate biomarker testing and evidence-based care: Biomarkers are molecules in the tumor or blood that indicate normal or abnormal processes in participant's body and may indicate an underlying condition or disease. Various molecules, such as DNA (genes), proteins, or hormones, can serve as biomarkers since they all indicate something about participant's health. Biomarker testing can also help choose participant's treatment. Additionally, a tumor board will be conducted periodically to provide treatment recommendations to participant's treating physician. Participants will receive standard-of-care treatment if participant enroll in this study. Participant will not receive any experimental treatment. 2. Assistance with clinical trial enrollment. The study team will help participants enroll in a clinical trial appropriate for participant's condition. However, enrolling in a clinical trial is totally up to the participant. 3. Health literacy: The study team will provide information relevant to participant's diagnosis to enrich participant's understanding of participant's condition and treatment. Investigator will provide questionnaires to assess participant's understanding before and after participant's have been provided with educational/informational material appropriate for participant's diagnosis.
Subjects with large inoperable liver tumors defined as at least 1 lesion larger than 5cm in maximum diameter. For the purposes of the present study, we define the AMARA principle in intensified regional TARE as a planned irradiated tumor dose >200Gy by the partition model. The purpose of the study is to evaluate the safety and efficacy of Y90 high dose radioembolization for the management of large inoperable liver tumors. In addition, to correlate the safety and efficacy with the post-treatment dosimetry analysis (by MIM Software Inc) based on 90Y-PET/CT imaging.
The vast majority of liver cancers have an insidious onset and are often asymptomatic in the early stages, making early diagnosis difficult. Once diagnosed, most liver cancers have reached locally advanced stages or distant metastases, equivalent to Barcelona stage (BCLC) C-D. The tumors progress rapidly and there is a lack of effective treatments. The survival period of cancer patients is generally only 3-6 months. Cellular immunotherapy, including CAR-T and TCR-T, is considered a new hope for the treatment of cancer. The purpose of this study is to explore the safety of QY-1-T (a TCR-T targeting HBV) in the treatment of HBV-related liver cancer, and to preliminarily evaluate the efficacy of QY-1-T in patients with HBV-related advanced liver cancer.
This is an observational clinical trial, aiming to investigate whether the ctDNA dynamics could predict early response to ICIs in patients with advanced-stage cancer. Moreover, conventional tumor markers PD-L1, TMB and MSI are to be investigated for their combined prognostic values in ICI treatment.
The provision of preoperative interventions (prehabilitation: including exercise, nutrition, and psychological treatment) have been reported to reduce postoperative complications by as much as 50% and reduce hospital stay by up to 4 days compared to standard of care. Postoperative multimodal interventions are likely to further benefit patients facing new challenges (e.g. stoma care), and reduce post discharge complications. Therefore the Virtual Multimodal hub of PRIORITY-CONNECT 2 Pilot Trial aims to primarily; determine the feasibility of incorporating a virtual multimodal program into the preoperative and postoperative period for patients undergoing gastrointestinal cancer surgery, the acceptability to patients, clinicians and carers of the virtual multimodal program and the acceptability to patients of being randomised to the virtual multimodal program or usual care. The secondary aim is to obtain pilot data on the likely difference in key outcomes (30 days postoperative complications, quality of life, days at home and alive at 30 days - DAH30, implementation outcomes and cost outcomes) to inform the development of a substantive randomised clinical trial.
The third generation of GPC3/mesothelin targeted CAR-γδT cells have been constructed and their anti-cancer function has been verified by multiple in vitro and in vivo studies. Clinical studies will be performed to test anti-cancer function of the CAR-γδT cells for immunotherapy of human cancer patients with GPC3 or Mesothelin expressions. In this phase I study, the safety, tolerance, and preliminary efficacy of the GPC3/Mesothelin-CAR-γδT cell immunotherapy on human cancers will firstly be evaluated.
The present observational study aims to assess the benefit of this quantitative multiparametric magnetic resonance imaging (MRI) in clinical practice, to quantify future liver remnant performance, and to accurately predict the risk of liver failure after major hepatectomy, among patients undergoing major liver resection. The main questions to be answered are: - Can multiparametric MRI predict the postoperative liver function? - Can multiparametric MRI predict the postoperative liver-specific complications as well as mortality? With ethical approval and fully informed consent, patients being considered for major liver resection will undergo clinical assessment, blood sampling, and multiparametric MRI before surgery. For the primary outcome, 33 participants will be needed to detect a minimum correlation coefficient of 0.2 with 5% significance and 80% power.
The endpoint of this study is to develop and validate algorithms, using artificial intelligence and machine learning, to optimize patient selection, treatment planning, treatment evaluation and outcome prediction in patients undergoing thermal ablation of a malignant liver tumor. The long-term objective is to establish thermal ablation as the treatment of choice for the vast majority of patients with a primary or secondary liver tumor by development of an accessible workflow that can be widely implemented in different centers performing thermal ablation. Over a time span of at least four years, data will be collected prospectively, encompassing patient information, tumor characteristics, and treatment details. Additionally, pre-, intra-, and post-procedural imaging will be systematically gathered.
Efficacy and Safety of Ciprofol Sedation in Patients Undergoing Liver Cancer Percutaneous Radiofrequency Ablation