View clinical trials related to Liver Neoplasms.
Filter by:This is an open-label, dose escalation, multi-center, Phase I/II clinical trial aimed at assessing the safety and preliminary efficacy of an investigational ARTEMIS® ECT204 T-cell therapy. The trial is suitable for adult subjects (≥ 18 years of age) diagnosed with GPC3-positive HCC, who have failed or not tolerated at least two (2) different anti-HCC systemic agents. Phase I has concluded and a Recommended Phase II Dose (RP2D) has been determined. We are now conducting Phase II to further confirm the safety profile of ECT204 and evaluate its efficacy.
Liver cancer is the sixth most commonly diagnosed cancer and the fourth leading cause of cancer death worldwide. It is the 3rd most common cause of cancer death in Hong Kong. The five-year survival rates of liver cancer differ greatly with disease staging, ranging from 91.5% in early-stage to 11% in late-stage. The early and accurate diagnosis of liver cancer is paramount in improving cancer survival. Liver cancer is diagnosed radiologically via cross sectional imaging, e.g. computed tomography (CT), without the routine use of liver biopsy. However, with current internationally-recommended radiological reporting methods, up to 49% of liver lesions may be inconclusive, resulting in repeated scans and a delay in diagnosis and treatment. An artificial intelligence (AI) algorithm that that can accurately diagnosed liver cancer has been developed. Based on an interim analysis, the algorithm achieved a high diagnostic accuracy. The AI algorithm is now ready for implementation. This study aims to prospective validate this AI algorithm in comparison with the current standard of radiological reporting in a randomized manner in the at-risk population undergoing triphasic contrast CT. This research project is totally independent and separated from the actual clinical reporting of the CT scan by the duty radiologist. The primary study outcome is the diagnostic accuracy of liver cancer, which will be unbiasedly based on a composite clinical reference standard.
Tumor infiltration lymphocytes (TILs) have been harvested from advanced cancer patients and constructed to knockout PD1 gene and express scFvs against both PD1 and CTALA4 and CARs against various antigens, followed by transfusion into the patients. The safety, tolerance, and preliminary clinical efficacy of the TILs will be evaluated.
Patients with multiple colorectal liver metastases that progress on 1st line chemotherapy have a very dismal prognosis, and their options are few. Resections are regularly performed although this is only supported by anecdotal evidence for this patient group. We want to assess whether resections actually confer benefit as compared to 2nd line chemotherapy alone, in a randomized controlled trial.
The management of liver metastases in neuroendocrine neoplasms is challenging. Peptide receptor radionuclide therapy with radiolabeled somatostatin analogs (SSA) is one of the most promising therapeutic options. As liver is the most frequent site of metastatic disease, our project proposes to compare administration of radiolabeled SSA by arterial intrahepatic infusion (experimental approach) vs intravenous administration (conventional). Evaluation will be made by (i) comparing 68Ga-DOTA-peptides uptake after intra-hepatic versus intravenous route (imaging), (ii) by evaluating the safety of an additional intra-hepatic administration of therapeutic radiolabeled SSA (therapy).
To compare the efficacy of FOLFOXIRI plus Cetuximab and FOLFOXIRI plus Bevacuzumab in the conversion therapy of right-sided colon cancer liver metastases
VG161 is a recombinant human-IL12/15/PDL1B oncolytic HSV-1 Injectable. This phase I study will be conducted in HSV-seropositive subjects with advanced primary liver cancer that are refractory to conventional therapies. This is an open label study and it's divided into two parts. Part 1: This part is ascending dose design to determine the safety and tolerability of VG161 and find recommended dose of VG161. Part 2: This part is extended dose design to determine the effectiveness of VG161.
To examine radio frequency ablation as a treatment supplement to stimulate immunogenicity and improve survival for patients undergoing curative-intent surgery for colorectal liver metastases.
Grade 2 neuroendocrine tumors have an intermediate rate of progression following embolotherapy of liver metastases. The combination of capecitabine and temozolomide has been shown to be an active regimen in this disease. Both drugs are radiosensitizers, and in a safety and feasibility study were combined with yttrium-90 radioembolization with acceptable additive toxicities and better than expected response and duration of disease control. This study expands use of this regimen in a Phase 2 investigation to confirm efficacy of the integrated chemoradiation technique.
This study is aimed at assessing the effectiveness of a novel liver specific nerve block in improving pain control during painful liver interventional radiology procedures including liver tumoral ablation and trans arterial chemoembolization, two procedures aimed at controlling liver tumors, but that can be associated with significant pain. This novel hepatic specific nerve block was designed by us and initial retrospective results suggests it might help in controlling such liver procedural derived pain. The study was designed to compare the liver block to a sham procedure in a blinded context and to follow the participants over three days post-procedure to asses for pain levels.