View clinical trials related to Liver Cancer.
Filter by:Based on the interaction between radiation therapy and immunotherapy and the potential potentiation of Probio-M9 for the treatment of ICIs, this study is planned to design an integrated treatment protocol for the first-line treatment of advanced gastrointestinal tumors through the use of macrofractionated radiotherapy as a means of immune activation, combined with the synergistic effect of Probio-M9 microbial agents and PD-1 inhibitors.
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.
This is a clinical study focused on the use of fiducial marker-guided stereotactic body radiotherapy (SBRT) for treating malignant tumors, including lung, liver, pancreatic, and kidney/adrenal cancers. Here's a breakdown of the key components of the study: Study Design: Prospective, single-center, exploratory clinical study. Patient Enrollment: The study intends to enroll patients diagnosed with malignant tumors requiring fiducial marker-guided SBRT. Each tumor type (lung, liver, pancreatic, kidney/adrenal) aims to include 15 cases. Informed Consent: Patients are required to sign informed consent before participating in the study, indicating their understanding of the procedures, risks, and benefits involved. Intervention: Enrolled patients will undergo stereotactic radiotherapy for their respective malignant tumors. During this process, fiducial markers will be implanted according to the study protocol. Monitoring: Following implantation of fiducial markers, the study will monitor adverse events associated with the procedure. This includes any complications or side effects resulting from the marker implantation process. Success Rate: The study will assess the success rate of fiducial marker implantation. This likely involves evaluating the accuracy and reliability of marker placement for guiding SBRT treatment. SBRT Treatment Error: The study will also monitor SBRT treatment errors. This involves tracking any deviations or inaccuracies in the delivery of stereotactic radiotherapy, potentially caused by issues such as improper fiducial marker placement or technical errors in treatment administration. Overall, the study aims to explore the feasibility and effectiveness of using fiducial marker-guided SBRT for treating various types of malignant tumors to assess both the safety and the efficacy with a focus on patient outcomes and treatment accuracy.
The purpose of this study is to access the effect of transcutaneous electrical acupoint stimulation on postoperative pain in patients undergoing hepatectomy
ETN101 is a multiple tyrosine kinase inhibitor (mTKI) targeting fms-like tyrosine kinase 3 (FLT3), receptor tyrosine kinase (KIT), vascular endothelial growth factor receptor 2 (VEGFR2), and platelet-derived growth factor receptor beta. Both in vitro and in vivo studies showed that ETN101 treatment/administration inhibited cancer cell survival and proliferation. In animal models, ETN101 had antitumor activity when administered to animals that did not respond to conventional targeted anticancer agents.
Non-alcoholic hepatic steatosis (NAFLD) is characterised by the excessive accumulation of triglycerides in the liver and is often associated, in the absence of significant alcohol consumption, with insulin resistance and metabolic syndrome with which it shares the most frequent clinical manifestations (hypertension, dyslipidaemia, visceral adiposity, glucose intolerance). Due to the pandemic spread of obesity and diabetes and by virtue of better control of viral hepatitis, NAFLD is the most common cause of liver damage in Western countries with a prevalence of around 20-30% of the general population. The clinical impact of NAFLD in diabetes is considerable and represents a real driver of the major clinical outcomes that impact on the health of the individual, consequently creating a real 'burden of disease' especially in those populations considered to be at higher risk of disease severity. Individuals with diabetes are, in fact, those at greatest risk of developing the clinical sequelae of NAFLD and often do not receive adequate hepatological support and a correct hepatic pathology. In fact, it has been documented in the literature that the presence of diabetes increases the severity of liver damage, bringing the risk of NASH up to 80% and increasing the risk of significant fibrosis to 30-40% of subjects with hepatic steatosis as well as representing an independent predictor for significant fibrosis. Lastly, the increased risk of hepatocarcinoma in subjects with diabetes and NAFLD should not be overlooked, as documented by our group and confirmed in a large Italian case series. In subjects with diabetes, moreover, the presence of NAFLD is not only associated with worse glycaemic control, but also with micro- and macro-vascular complications as well as nephrological and neuropathic complications and increased mortality. Therefore, the possibility of applying the non-invasive fibrosis scores currently available for NAFLD on a large scale, in a population at high risk of progressive liver disease, would make it possible to characterise (a) the true epidemiology of significant fibrosis (F3 or higher); (b) allow primary prevention actions to be carried out by optimising the use of resources or by identifying subjects at greater risk of damage progression; (c) understand, in cases with a long history of disease the true prevalence of clinical outcomes; (d) understand the epidemiology of comorbidities and polypharmacy as a function of significant fibrosis.
Irreversible electroporation is a curative treatment for cancerous liver lesions, performed on deep-seated tumors that are not eligible for surgical resection or percutaneous thermal ablation. The EVALHEP project aims to develop criteria for evaluating the effectiveness of the treatment based on imaging, mathematical models, and numerical simulations to assist radiologists who perform these complex procedures.
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.