View clinical trials related to Pancreatic Neoplasms.
Filter by:This phase Ib/II trial studies the side effects and best dose of pan fibroblast growth factor receptor (FGFR) kinase inhibitor BGJ398 when given together with fluorouracil, irinotecan hydrochloride and oxaliplatin (combination chemotherapy) in treating patients with untreated pancreatic cancer that has spread to another place in the body. Pan FGFR kinase inhibitor BGJ398 may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Drugs used in chemotherapy, such as fluorouracil, irinotecan hydrochloride and oxaliplatin, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving pan FGFR kinase inhibitor BGJ398 together with fluorouracil, irinotecan hydrochloride and oxaliplatin may be a better treatment for pancreatic cancer.
The aim of this study is to evaluate and compare the diagnostic accuracy and specimen adequacy of two ultrasound biopsy needles. These are two existing FDA approved tissue biopsy regimens, with respect to diagnosis of solid pancreatic lesions.
The relationship between myopenia, nutritional status, and long-term oncologic outcomes remains poorly characterized in patients with anatomically resectable pancreatic cancer (PC). The investigators want to look at muscle properties in pancreatic cancer patients to determine possible therapeutic options toward better nutritional status. Patients with benign right upper quadrant pathology will be utilized as controls for the study. The researchers hypothesize that improving cancer cachexia in PC will improve the quality of life and ultimately increase overall survival. The long term goal of is to identify areas of intervention to prevent and/or improve cachectic events in PC in order to significantly improve clinical outcomes. The first step in this long term goal is to fully characterize cachexia in the condition of PC. This research is to understand and modify the local response within skeletal muscle leading to a clinically relevant persistent wasting and to understand and interrupt the systemic stimulus produced by the tumor local environment resulting in these muscle specific mechanisms.
Researchers are looking for better ways of diagnosing and treating pancreatic cancer. It is believed that looking for low levels of oxygen (hypoxia) in tumours may give a better understanding of how certain tumours grow or respond to certain treatments. This study will look at hypoxia in pancreatic tumours while participants are receiving treatment with the combination of gemcitabine and TH-302/placebo in the EMR 200592-001 clinical research study. This study will use positron emission tomography (PET) scans to look at hypoxia in tumours. PET is an imaging test that can be used to measure hypoxia in tumours. For this study, a radioactive tracer called Fluoroazomycin Arabinoside (FAZA) will be used to "label" areas of hypoxia in tumours. Determining the levels of hypoxia in tumour tissue using FAZA-PET scans and comparing these levels with the patient's response to treatment with gemcitabine and TH-302/placebo for pancreatic cancer may help the researchers to determine the relationship between hypoxia and response to this treatment. The main purpose of this study is to see how useful looking at hypoxia in tumours are when they are done at different centres.
The purpose of this study is to evaluate the safety and efficacy of HepaSphere interventional therapy using digital subtraction Angiography(DSA)for pancreatic cancer.
This study will evaluate the performance of the EnLightTM and LightPathTM Imaging Systems in detecting tumour lesions in patients with gastric, pancreas, bile duct or duodenal cancer. EnLightTM will be used to detect positron emission and the LightPathTM system to detect Cerenkov Luminescence. Both are emitted by the Positron Emission Tomography (PET) agent. The study will also evaluate the patient safety and radiation safety of the EnLightTM, and the safety for the device operators and surgical staff of the LightPathTM Imaging System.
The primary purpose of this study is to see if it is safe to give patients with pancreatic or head and neck cancer a low dose of the FDA approved anesthetic drug ketamine at the same time they receive radiation and/or chemotherapy for their cancer treatment to prevent depression and its effects. Researchers would also like to see if giving ketamine at the same time as cancer treatment is practical and reasonably acceptable to the patient. New onset depression is highly frequent in those with head and neck cancer, and depression has many negative consequences for outcomes in those patients. Depression has been known to have greater incidence in pancreatic cancer patients than in patients with other malignancies. Therefore, investigators would also like to see if giving patients ketamine during their routine cancer treatment will prevent the onset of depression and its negative effects on cancer treatment outcomes, and also help with anxiety, pain, and quality of life. The study will also use a placebo to compare to the good and/or bad effects of ketamine. A placebo is not an active drug and it will be look the same as ketamine, as a liquid to be taken by mouth. Ketamine is approved by the U.S. Food and Drug Administration (FDA) as a general anesthetic by itself for some diagnostic and surgical procedures or combined with other general anesthetic agents. It has also been shown to reduce cancer pain. Ketamine is considered experimental in this study because it is not approved by the FDA for the prevention of depression.
This pilot research trial studies patient derived cancer cell lines in identifying molecular changes in patients with previously untreated pancreatic cancer and are receiving gemcitabine hydrochloride-based chemotherapy. Cell lines refer to samples taken from the patient's tumor to grow for many months or years in a laboratory, and can therefore be studied scientifically. Studying cell lines in the laboratory may help doctors understand the genetic changes that occur to the tumor during chemotherapy that allows the tumor to resist or grow despite treatment.
Comparison Study between 19 gauge EUS FNA BNX Needle vs. 22 gauge EUS FNA BNX Needle in Pancreatic Fiducial Placement To Treat Pancreatic Cancer
The investigators hypothesis is that a 22 gauge needle can yield core tissue, obviating the need to use the 19 gauge needle for core tissue procurement.