Clinical Trials Logo

Liver Malignant Tumors clinical trials

View clinical trials related to Liver Malignant Tumors.

Filter by:
  • Recruiting  
  • Page 1

NCT ID: NCT06426992 Recruiting - Clinical trials for Liver Malignant Tumors

Clinical Effectiveness of Microwave Ablation Using Starwave Microwave Generator for Hepatic Malignancies

Start date: April 30, 2024
Phase: N/A
Study type: Interventional

The purpose of this study is to determine the technical success rate of creating a safety margin of 5 mm or more including the tumor by performing image-guided percutaneous microwave thermal therapy using a microwave generator and antenna developed by StarMed for the treatment of small liver cancer and the 1-year local recurrence rate based on follow-up imaging tests.

NCT ID: NCT05053555 Recruiting - Pancreatic Cancer Clinical Trials

High Dose-Rate Brachytherapy for the Treatment of Both Primary and Secondary Unresectable Liver Malignancies

Start date: April 24, 2022
Phase: N/A
Study type: Interventional

Over the past three decades, the treatment of both primary and secondary liver malignancies has been improved by the development and optimization of multiple minimally invasive thermal ablative therapies. These advances have resulted in a myriad of benefits for patients including decreased morbidity, mortality, as well as increased longevity and quality of life. However, these therapies can only be performed within certain parameters. Thermal ablative techniques such as radiofrequency ablation (RFA) and microwave ablation (MVA) are recommended for small lesions under 3 cm due to decreased efficacy when attempting to treat larger lesions. Additionally, large vessels in close proximity to a target lesion may result in heat dissipation, termed the "heat sink" effect, and result in incomplete ablation of the lesion. Furthermore, thermal ablative techniques cause off-target damage when utilized near sensitive structures such as the diaphragm, stomach, or bowel, and if performed near thermosensitive bile ducts, can result in cholestasis . Noting these limitations, percutaneous high-dose-rate brachytherapy was brought into clinical practice by Ricke et al. in Europe in 2002 . This therapy utilizes an iridium-192 (192Ir) isotope to administer a cytotoxic dose of radiation to a target lesion. It is not susceptible to heat sink effects and can also deliver radiation with the precision necessary to cause tumor death without destroying the integrity of neighboring structures. Additionally, it can be used to treat larger tumors (>3cm) as it is not associated the same size limitations as ablative techniques and can also be utilized to treat lesions that are not amenable to intra-arterial therapies (such as trans-arterial chemoembolization and yttrium-90 radioembolization). Since its inception, HDRBT has been evaluated through multiple studies investigating its use to treat lesions throughout the body including both primary and secondary liver malignancies such as hepatocellular carcinoma (HCC), cholangiocarcinoma, metastasis to the liver from colorectal cancer, pancreatic cancer , melanoma , and breast cancer . Its use in treating lymph node metastases has also been investigated . These studies have demonstrated the feasibility, safety, and clinical effectiveness of this method, establishing it as a therapeutic option when use of thermal ablation therapies is restricted. Most studies however, have been retrospective and have been performed outside the United States. Studying this therapy will add a crucial treatment option to our current armamentarium, filling a gap in currently available therapies and additionally allowing for further investigation of the use of HDRBT in a larger and more diverse population.

NCT ID: NCT04996446 Recruiting - Clinical trials for Liver Malignant Tumors

ALPPS Combined With Tislelizumab in Liver Malignancy

Start date: August 1, 2020
Phase: Phase 2
Study type: Interventional

Study design: Prospective, single-center, phase IIa clinical trial; Primary endpoint: Recurrence free survival; Secondary endpoints: Safety, overall survival; Main characteristics of patients: Liver malignancy, required (extended) hemihepatectomy, insufficient liver reserve; Study approaches: The experimental group is treated with ALPPS combined with Tislelizumab, and the control group was treated with ALPPS; Sample size: 20 (10:10); Study process: In experimental group, patients who meet the inclusion criteria will receive ALPPS stage I surgery, treated with Tislelizumab 2-4 weeks after stage I surgery, and receive ALPPS stage II surgery 2-4 weeks after Tislelizumab treatment, and treated with Tislelizumab q3W 6-12 months after stage II surgery; In control group, patients who meet the inclusion criteria will receive ALPPS stage I surgery, and receive ALPPS stage II surgery 3-6 weeks after stage I surgery.

NCT ID: NCT04559451 Recruiting - Clinical trials for Liver Malignant Tumors

Assessment of Remnant Liver Function in ALPPS by Gd-EOB-DTPA Enhanced MRI

Start date: October 1, 2020
Phase:
Study type: Observational

Insufficient future liver remnant (FLR), which may render post-hepatectomy liver failure, is one of the major obstacles for performing liver resection for patients with liver malignants. Associating liver partition and portal vein ligation (ALPPS) was introduced to induce rapid and extensive liver hypertrophy, which offers the opportunity for removing the liver malignancy in the second stage operation for patients with insufficient FLR at their first stage operation. Feasibility of the second stage of ALPPS has been assessed mostly on the basis of laboratory parameters and volumetry by the 3D reconstruction of CT. Meanwhile, part of the patients who underwent the second stage ALPPS still experienced postoperative liver failure, even in patients with sufficient FLR volume. In other words, this volumetric increase may not reflect the increase of liver function. And the laboratory parameters can only partly reflect the global liver function but not the regional liver function. Therefore, the combination of volumetric and global liver function tests might be unsuitable for predicting FLR function after first stage ALPPS because function is distributed unequally between left and right liver lobe. The Gd-EOB-DTPA-enhanced liver MRI, which has remarkable potential to evaluate regional liver function and could therefore be an ideal diagnostic test for performing volumetric and functional measurement after the first stage ALPPS in one examination. Thus we performed this clinical trial in order to evaluate the efficacy of Gd-EOB-DTPA-enhanced liver MRI in evaluating the FLR liver function after the first stage ALPPS.

NCT ID: NCT03959800 Recruiting - Clinical trials for Hepatocellular Carcinoma

Molecular Basis of Pediatric Liver Cancer

Start date: June 22, 2015
Phase:
Study type: Observational

The purpose of this retrospective and prospective project is to understand the molecular and genetic basis of liver cancer of childhood. Understanding the molecular and genetic bases of liver cancers can offer a better classification based on tumor biology, mechanisms and predisposition.