Active clinical trials for "Liver Neoplasms"

In the recently published multi-center, prospective, single-blind study (THUNDER study), using the methylation signal in cfDNA isolated from the peripheral blood to detect the six types of cancer, the sensitivity for liver cancer detection achieved 87.8%, with a specificity of 98.9%. In this study, a multicenter, case-control study is designed to establish an early cancer detection model based on cfDNA methylation biomarkers using qPCR to detect primary liver cancer and further validate the performance of the model.

The SELINA study will recruit 200 patients with cirrhosis and small HCC and 50 patients with HCC but without cirrhosis (most of whom are expected to have FLD). Blood, urine and liver tissue samples (where available) will be collected for laboratory analysis. In a subgroup of patients (N=80, around 64 patients with HCC with liver cirrhosis and around 16 patients with HCC without liver cirrhosis), additional magnetic resonance liver imaging will be performed. The findings of the SELINA study aim to identify biomarkers that can be used to detect liver cancer at the earliest possible time, something we expect will increase the survival rate of HCC.

This observational study will investigate the properties of image files standardly collected during radiation therapy treatment in a cross-section of liver cancer patients who received stereotactic ablative body radiation therapy (SABR) after trans-catheter arterial chemo emobilisation (TACE). Specifically, it will determine whether the radio-opaque contrast agents in the image files can be detected by tumour-tracking software (KIM).

Researchers at the the University of Michigan are conducting a research project to assess how a course of radiation therapy changes the way blood flows through the liver. To be able to do this, the researchers will be using MRI (magnetic resonance imaging) scans completed before, during, and after radiation therapy. MRI's will be done on 4 or 5 occasions. On each occasion, you will be injected with a fluid called gadolinium (a contrast agent) before getting an MRI. This contrast agent makes it easier for the Researchers to see your organs in the scans, and causes any abnormal areas to become very bright on the MRI. This agent will be injected into a vein in your arm or leg. Each MRI scan will last approximately 45 minutes.

The incidence of liver cancer in China shows a clear clinical path of hepatitis/fatty liver liver cirrhosis liver cancer. The dynamic changes of the internal environment on this pathway are important clues for early detection, diagnosis and even cure of liver cancer. The investigators carried out this study to investigate the changes of plasma and urine metabolites in different liver diseases during the occurrence and development of liver cancer.

Observational study that will be collecting clinical and molecular health information from cancer patients who have received comprehensive genomic profiling and meet the specific eligibility criteria outlined for each cohort with the goal of conducting research to advance cancer care and create a dataset that furthers cancer research.

This clinical trial studies contrast-enhanced magnetic resonance imaging (MRI) in detecting nonmalignant and malignant liver lesions. Diagnostic procedures, such as MRI, may help find and diagnose nonmalignant and malignant liver lesions. Contrast agents, such as gadoxetate disodium and gadobutrol, may help doctors to see MRI images more clearly.

The purpose of this study is to explore novel ways of diagnosing colon cancer and predicting its propensity to spread to other organs such as the liver.

It has well accepted that tumor angiogenesis present aberrant vascular architecture and functional abnormalities, which is associated with tumorigenesis, tumor propagation and progression. By locating, separating and tracking microbubbles, the recently introduced and upgraded Ultrasound Localization Microscopy (ULM) surpassed classical wave diffraction limit. However, the acquisition of structural and functional parameters of microcirculation in vivo for ULM is still confined by the compromise between the resolution and penetration depth. The relatively long acquisition time induced the difficulty of motion correction potentially, which hampers the preclinical to clinical application in organs with distinct tissue motion such as the liver. Therefore, we take the lead in studying human liver lesion microvasculature, which remains a challenge for noninvasive, quantitative and functional intravital imaging especially due to its deep-seated location and strong motion. We developed a Super-resolution Ultrasound (SR-US) imaging technique based on ULM to assess its feasibility of visualizing and quantifying microvasculature in human organs.

HCC resection candidates with inadequate future liver remnant will be enrolled in this study. They will be treated with Y90 radioembolization to help grow the liver enough to undergo liver resection. There will be 2 Patient Groups. The first group of patients will be treated with Y90 dose and embolic load as per standard-of-care. The second group of patients will be treated with the optimal Y90 dose and embolic load found in Patient Group 1.