View clinical trials related to Hepatocellular Carcinoma.
Filter by:The purpose of this study is to determine the safety, tolerability, and preliminary efficacy of INCAGN02390 in participants with select advanced malignancies.
There is great need for new therapeutic options for patients with hepatocellular carcinoma (HCC). This proposal will assess the feasibility of a novel theranostic approach to HCC using [68Ga]DOTATATE, a recently approved positron emission tomography (PET) ligand for imaging somatostatin receptor (SSTR) positive tumors. In this study, we will use [68Ga]DOTATATE to determine the percentage of HCCs that express adequate levels of SSTR for treatment with targeted radionuclide therapy (TRT) using the therapeutic SSTR ligand [177Lu]DOTATATE. This radionuclide therapy was FDA approved in January 2018 for treating neuroendocrine tumors (NETs) arising from the gastrointestinal tract, but its use in HCC has not yet been explored. In the long term, we envision using [68Ga]DOTATATE-PET to identify HCC patients with adequate SSTR expression for TRT using [177Lu]DOTATATE. Liver transplantation is the only curative therapy for HCC and is an option for a selected subset of HCC patients. For those who are not candidates for transplantation, locoregional therapies with limited efficacy are available such as percutaneous ablation, arterial chemoembolization, and Y-90 microsphere radionuclide therapies. There are few options for patients who progress or are not candidates for these therapies. The first line systemic therapy is sorafenib, a tyrosine kinase inhibitor. Sorafenib is often not well tolerated due to its side effects and there is need for additional systemic treatments. Multiple tissue-based studies demonstrate SSTR positivity in 20-50% of HCCs.[1-3] However, the fraction of HCCs have high enough levels of SSTR for [177Lu]DOTATATE therapy has not yet been assessed. This research plan is a critical prerequisite for determining the feasibility of this theranostic approach to treating HCC. If we obtain positive results, these data will be critical for designing a combined imaging and therapeutic study in HCC using DOTATATE.
This clinical trial is a prospective, open label, single arm oncological phase I/II trial in patients with hepatocellular carcinoma and WNT signaling alterations. The trial consists of two parts: Part A is a phase I study investigating the safety of DKN-01 administered as mono- as well as combination therapy with sorafenib in a 2 step dose escalation.Part B is a phase II study to investigate the anti-tumor activity and safety of DKN-01 in patients with advanced HCC. DKN-01 is administered at the recommend phase II dose (RP2D) for monotherapy and at the recommend phase II dose for combination therapy established in Part A.
Researchers already did trials that showed Sorafenib and Regorafenib worked for patients with hepatocellular carcinoma (most common liver tumor type). In this trial, they want to learn more about the same patient group in which Sorafenib or Regorafenib is given after other drugs. Patients participating in this study will be observed until 12 months after the last patient has been enrolled to collect data on how safe the drugs are and how well they are working when used as second line or beyond treatment.
Evaluation the Treatment Outcome for RFA in Patients With BCLC Stage B HCC in Comparison With TACE
The purpose of this study is to determine the safety and efficacy of immunotherapy durvalumab and tremelimumab combined with DEB-TACE in patients with Hepatocellular Carcinoma.
This study was designed to evaluate the effectiveness of radiofrequency /microwave ablation in patients with hepatocellular carcinoma beyond Milan Criteria.
Percutaneous ablation (PA) is the only non-surgical curative treatment of hepatocellular carcinoma (HCC). Due to its excellent tolerance, particularly in patients with portal hypertension or bearing comorbidities, it now represents in France nearly 70% of the first-line curative treatment of "in Milan" tumours. For HCC less than 3 cm, ideal indication for percutaneous ablations, results of monopolar radiofrequency ablation (mRFA), are excellent with only 5% of reported non-tumoral control after a first procedure . In addition to mRFA the arsenal of ablations has grown considerably with the emergence of new techniques. They allow the expansion of indications for PA, especially in patients with poor prognostic tumors or relatively advanced beyond the Milan criteria . In this setting, multibipolar mode using no touch technique (mbpRFAnt) increases the tumour volume that can be ablated, allowing the removal of large tumors> 5 cm . Furthermore, electroporation (EP) is a new PA technique that does not promote thermoablation but induce tumoral cells apoptosis and is particularly interesting for difficult-to-treat lesions located near vascular or biliary trunks . Inadequate tumour control is then de facto greater in these situations, around 20% at one year. The idea of optimizing HCC curative treatments using neoadjuvant or adjuvant biotherapy, particularly in patients with advanced tumors in curative intent, is particularly attractive. One trial in adjuvant setting was conducted, the STORM trial, that tested the benefit of sorafenib in curative intent of in Milan HCC. This negative trial included patients with in Milan HCC, with an expected low rate of recurrence with only few patients treated by PA. In parallel, the development of new molecules for HCC treatment, especially immunotherapy, seems to give promising results in palliative setting . Furthermore, PA procedures and most likely electroporation induce T-cell recruitement that may foster immunomodulation . Neoadjuvant and adjuvant trials using these new molecules must now be cautiously designed based on the rigorous selection of special populations and therapeutic indications. This project proposes a Phase 2 trial testing the safety and efficacy of treatment with Nivolumab in neoadjuvant and adjuvant setting in patients with advanced HCC treated by electroporation in curative intent.
In patients with primary liver cancer arising from the liver cells, several treatment options are available according to the stage of the disease. Thermal ablation is a treatment modality using the deposition of thermal energy via an ablation probe to locally destroy the tumor tissue. It has been accepted as being equally effective as surgical resection in patients with very small tumors, as well as for patients with more advanced disease who are not surgical candidates or who are awaiting liver transplantation. Treatment success of thermal ablation is linked to the completeness of the tumor ablation and thus to the precision with which the ablation probes can be placed within the tumors. In recent years, novel computer-assister technology has been introduced to augment accuracy in ablation probe positioning, and first reports describing the safety and efficiency of these procedures have been described in the literature. However, very few works describe the oncological outcomes of patients when using this technology for thermal ablation. In this study, the investigators aim to describe local tumor control and the oncological follow-up of patients when using computer-assisted technology for thermal ablation of liver cancer.
The primary objective of this study is to obtain de-identified, clinically-characterized whole blood specimens for use in developing and evaluating the performance of new biomarker assays for detection of hepatocellular carcinoma (HCC).