View clinical trials related to Liver Neoplasms.
Filter by:This international multi-centre phase 3 randomized control trial investigates whether giving a very high dose of radiation in a single treatment session (ultra-high dose: experimental) using advanced technology called MR-Linac is more effective than a high dose (control) for treating liver tumors that have spread from other parts of the body (liver metastases). This study also aims to identify predictors of treatment response and side effects by analyzing various factors such as imaging markers and genetic profiles. Liver metastases are common in several cancers, but surgery is often not feasible for many patients. Stereotactic body radiotherapy (SBRT), which delivers focused radiation to tumors, is an alternative treatment option. Previous studies have shown promising results with SBRT, but the optimal radiation dose for liver metastases is still uncertain. This study will look at patients with specific types of primary cancers known to respond well to SBRT. Treatment effectiveness will be assessed by monitoring tumor control, overall survival, and quality of life. By comparing ultra-high dose SBRT with standard high dose, the study aims to determine if the former can provide better tumor control with fewer side effects. If successful, this approach could offer a significant advancement in the treatment of liver metastases, potentially improving outcomes and quality of life for patients.
This study is an open-label Phase Ib (Part A) dose escalation followed by a blinded, randomized, multi cohort Phase 2a (Part B) comparison of combination vs. reference regimens. Currently study will only be enrolling the Phase 1b and the Phase 2a protocol requirements will be added to the study near completion of the Phase 1b
PONV management has been recommended as a necessary part of enhanced recovery protocols during the perioperative period, and PONV risk assessment is, therefore, a necessary first step in determining the number of medications or strategies for prophylaxis and treatment by considering the number of modifiable and non-modifiable risk factors. However, the external validity of two commonly-used PONV prediction models for patients undergoing liver surgery is unsatisfied, and need to be updated for liver cancer populations to better inform personalized perioperative care regime and individualized decision-making in clinical practice.
The goal of the study is to explore whether the usage of DEB-TACE (Drug-Eluting Bead Transarterial Chemoembolization) prior to SALT (Sequential Adult Left Lateral Liver Transplantation) can prolong the recurrence-free survival in patients with hepatocellular carcinoma (HCC). It is a single-center, exploratory study. The patients scheduled for SALT receive DEB-TACE 2 weeks prior to the surgery. The primary outcome: Recurrence-free survival (RFS) The secondary outcome:1) Overall survival (OS);2) Pathological response rate (Pathological Response); 3) Proportion of patients completing SALT; 4) Adverse events related to DEB-TACE.
The primary purpose of this study is to determine the sensitivity of CYBRID Score for predicting in-vivo clinical response based on surgical response or RECIST 1.1 for neoadjuvant and locally advanced/metastatic patients, respectively. The secondary purposes is to determine the sensitivity of the CYBRID Score for predicting in-vivo clinical response based on surgical response or RECIST 1.1 for neoadjuvant and locally advanced/metastatic patients, respectively.
Worldwide, liver cancers are the third most common cause of cancer mortality. Even when liver cancer is suspected by blood tests, imaging is required to determine the location, size, and extent of disease. Medical societies therefore recommend surveillance with ultrasound every 6 months in at-risk patients. However, a key challenge to improving the survival is that ultrasound may miss half of early-stage liver cancers, thus diagnosis must rely on additional tests such as computed tomography (CT), magnetic resonance imaging (MRI), or biopsy. Hence, there is a clear need to improve the ability to detect liver cancers, especially with ultrasound. The investigator's team proposes novel ultrasound approaches to detect cancer nodules invisible on conventional ultrasound based on differences in mechanical and structural properties between liver and tumor. Improving detection is critical because liver cancer can be cured only if detected at an early stage, as shown by improvements in survival rates in patients enrolled in surveillance programs. The investigator's multi-disciplinary, national, and international team includes experts in clinical fields (hepatology, oncology, radiology, pathology), basic sciences (engineering, medical physics, machine learning, biostatistics), and patient partnership. The investirgator will apply the methodology of patient partner recruitment and collaborate with the Centre of Excellence on Partnership with Patients and the Public to select potential new collaborators. This will permit this project to be informed at every stage by patient and family perspectives, ensuring that the results of this project will be more robust, impactful, and aligned with the priorities, needs and experiences of those who live with liver cancer. The investigator submits a research proposal focused on advanced imaging techniques because imaging constitutes a foundation for surveillance, diagnosis, staging, treatment selection and assessment of treatment response in patients with liver cancer.
Trans arterial chemoembolization (TACE) has emerged as a treatment option for chemotherapy-refractory diseases in Liver metastases. By delivering chemotherapy agents directly to the tumor site, TACE can maximize local drug concentrations and reduce systemic adverse reactions. Bevacizumab is a monoclonal antibody that functions as an angiogenesis inhibitor. It works by slowing the growth of new blood vessels by inhibiting vascular endothelial growth factor A (VEGF-A). The application of Bevacizumab during TACE has not been reported. In this study, we will evaluate the the overall survival (OS)、efficacy, and safety of the application of Bevacizumab during TACE in patients with Liver Metastases by designing an open, single-arm phase II clinical study.
Improving personalized cancer treatments and finding the best strategies to treat each patient relies on using new diagnostic technologies. Currently, for colorectal cancer, the methods used to decide who gets additional post-surgery treatment are suboptimal. Some patients get too much treatment, while others do not get enough. There is a new way to explore if there is any cancer left in a patient's body using circulating tumor DNA (ctDNA) detected in blood samples. This can help decide who needs more treatment after surgery. Even though many tests have been developed, it has yet to be determined which test performs best at relevant time points. The GUIDE.MRD consortium is a group of experts, including scientists, technology, and pharmaceutical companies. The consortium is working on creating a reliable standard for the ctDNA tests, validating their clinical utility, and collecting data to help decide on the best treatment for each patient. FRENCH.MRD.CRLM is the French study and part of the european GUIDE.MRD project.
This phase II trial evaluates the diagnostic performance of contrast-enhanced ultrasound (CEUS) for assessing treatment response in patients undergoing transarterial chemoembolization (TACE) for liver tumors. TACE is a hepatic artery embolization technique involving the injection of a blocking agent and a chemotherapy agent to treat liver cancers. Currently, contrast enhanced magnetic resonance imaging or computed tomography are used to assess disease response 1-2 months after TACE treatment, but ultrasound may be a less expensive, earlier alternative. CEUS is an imaging procedure that uses high-frequency sound waves to generate images of the body after administering lumason, an imaging agent used to enhance visualization of blood flow on ultrasounds. CEUS is able to be performed during the TACE procedure, making it possible to evaluate treatment response earlier than standard techniques. CEUS may be an effective method to evaluate treatment response more accurately and much earlier than current standard evaluation methods.
This is an open-label, phase II study that may provide evidence that taking S-adenosylmethionine (SAMe) supplementation prevents oxaliplatin, a type of chemotherapy drug, associated liver toxicity in patients with resectable colorectal liver metastases. Resectable means that it is able to removed with surgery. Patients will take two SAMe tablets in the morning and one tablet in the evening for 3-6 months (about 6-8 cycles of chemotherapy) in addition to oxaliplatin based chemotherapy followed by surgical removal of the colorectal liver metastases.