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Showing 1-19 of 19 trials
NCT01730937
This randomized phase III trial studies sorafenib tosylate and stereotactic body radiation therapy to see how well they work compared to sorafenib tosylate alone in treating patients with liver cancer. Sorafenib tosylate may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Stereotactic body radiation therapy may be able to send the radiation dose directly to the tumor and cause less damage to normal tissue. Giving sorafenib tosylate together with stereotactic body radiation therapy may kill more tumor cells.
NCT02119065
This pilot clinical trial studies positron emission tomography (PET)/computed tomography (CT) in finding beads after Yttrium-90 bead therapy in patients with primary liver cancer or cancer that has spread to the liver (metastatic) that can not be removed by surgery. Imaging procedures, such as PET/CT after Yttrium-90 bead therapy, may help see if the beads are present in the lung and compare the results with the pre-therapy imaging.
NCT02088775
This clinical trial studies positron emission tomography (PET)-computed tomography (CT) in determining the radiation dose delivered with radioactive spheres to patients with liver metastasis or primary liver or biliary cancer. Comparing results of diagnostic procedures dose before and after delivery of radioactive spheres to the liver may help determine radioembolization dose and plan the best treatment for liver metastasis or primary liver or biliary cancer.
NCT01643499
This study is being done to determine the dose of a chemotherapy drug (irinotecan \[irinotecan hydrochloride\]) that can be tolerated as part of a combination of drugs. There is a combination of chemotherapy drugs often used to treat gastrointestinal cancer, which consists of 5-FU (fluorouracil), leucovorin (leucovorin calcium), irinotecan and oxaliplatin and is known as "FOLFIRINOX". FOLFIRINOX is a current drug therapy combination (or regimen) used for people with advanced pancreatic cancer, although this combination is not Food and Drug Administration (FDA) approved for this indication. FOLFIRINOX was recently shown in a separate clinical trial to increase survival compared to another commonly used drug in pancreatic cancer called gemcitabine. FOLFIRINOX is also a reasonable regimen for those with other advanced cancers of the gastrointestinal tract, including colon cancer, rectal cancer, esophagus cancer, stomach cancer, gall bladder cancer, bile duct cancer, ampullary cancer, and cancers with an unknown primary location. The best dose of irinotecan to use in FOLFIRINOX is not known. This study will analyze one gene (uridine 5'-diphospho \[UDP\] glucuronosyltransferase 1 family, polypeptide A1 \[UGT1A1\] gene) of subjects for the presence of an alteration in that gene, which may affect how the body handles irinotecan. Genes help determine some of the investigators individual characteristics, such as eye color, height and skin tone. Genes may also determine why people get certain diseases and how medicines may affect them. The result of the genetic analysis will divide subjects into one of three groups: A, B, or C. Group A (approximately 45% of subjects) will receive the standard dose of irinotecan. Group B (approximately 45% of subjects) will receive a lower dose of irinotecan. Group C (approximately 10% of subjects) will receive an even lower dose of irinotecan
NCT01766219
This pilot clinical trial studies 6,8-bis(benzylthio)octanoic acid in treating patients with advanced or metastatic cholangiocarcinoma that cannot be removed by surgery. 6,8-Bis(benzylthio)octanoic acid may stop the growth of cholangiocarcinoma by blocking blood flow to the tumor
NCT00101036
This phase II trial is studying how well lapatinib works in treating patients with locally advanced or metastatic biliary tract or liver cancer that cannot be removed by surgery. Lapatinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
NCT00459108
This phase II trial is studying how well dasatinib works in treating patients with advanced liver cancer that cannot be removed by surgery. Dasatinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
NCT00085410
This phase II trial is studying how well bortezomib works as first-line systemic therapy in treating patients with unresectable locally advanced or metastatic adenocarcinoma (cancer) of the bile duct or gallbladder. Bortezomib may stop the growth of tumor cells by blocking the enzymes necessary for their growth.
NCT00787787
This phase II trial studies how well giving sunitinib malate together with capecitabine works in treating patients with unresectable or metastatic liver cancer. Sunitinib malate may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth and by blocking blood flow to the tumor. Drugs used in chemotherapy, such as capecitabine, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Giving sunitinib malate together with capecitabine may kill more tumor cells
NCT00397384
This phase I trial is studying the side effects and best dose of erlotinib hydrochloride when given together with cetuximab and to see how well they work in treating patients with advanced gastrointestinal cancer, head and neck cancer, non-small cell lung cancer, or colorectal cancer. Erlotinib hydrochloride may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Monoclonal antibodies, such as cetuximab, can block tumor growth in different ways. Some block the ability of tumor cells to grow and spread. Others find tumor cells and help kill them or carry tumor-killing substances to them. Erlotinib hydrochloride and cetuximab may also stop the growth of tumor cells by blocking blood flow to the tumor. Giving erlotinib hydrochloride together with cetuximab may kill more tumor cells.
NCT00365391
This phase II trial is studying how well giving bevacizumab together with erlotinib works in treating patients with advanced liver cancer. Monoclonal antibodies, such as bevacizumab, can block tumor growth in different ways. Some block the ability of tumor cells to grow and spread. Others find tumor cells and help kill them or carry tumor-killing substances to them. Erlotinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Bevacizumab and erlotinib may also stop the growth of tumor cells by blocking blood flow to the tumor. Giving bevacizumab together with erlotinib may kill more tumor cells
NCT00006016
This phase II trial is studying the effectiveness of combining thalidomide and chemoembolization in treating patients who have liver cancer that cannot be removed by surgery. Thalidomide may stop the growth of liver cancer by stopping blood flow to the tumor. Chemoembolization kills tumor cells by blocking the blood flow to the tumor and keeping chemotherapy drugs near the tumor. Combining thalidomide with chemoembolization may kill more tumor cells.
NCT01859182
This phase II trial studies how well selumetinib and Akt inhibitor MK-2206 work in treating patients with refractory or advanced gallbladder or bile duct cancer that cannot be removed by surgery. Selumetinib and Akt inhibitor MK-2206 may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
NCT00031681
This phase I trial is studying the side effects and best dose of giving 7-hydroxystaurosporine together with irinotecan hydrochloride in treating patients with metastatic or unresectable solid tumors, including triple-negative breast cancer (currently enrolling only patients with triple-negative breast cancer since 6/8/2007). Drugs used in chemotherapy use different ways to stop tumor cells from dividing so they stop growing or die. Giving 7-hydroxystaurosporine together with irinotecan hydrochloride may help kill more cancer cells by making tumor cells more sensitive to the drug.
NCT00033462
Phase II trial to study the effectiveness of erlotinib in treating patients who have unresectable liver, bile duct, or gallbladder cancer. Biological therapies such as erlotinib may interfere with the growth of cancer cells and slow the growth of the tumor.
NCT00028496
Phase I trial to study the effectiveness of vaccine therapy with or without sargramostim in treating patients who have advanced or metastatic cancer. Vaccines may make the body build an immune response to kill tumor cells. Colony-stimulating factors such as sargramostim may increase the number of immune cells found in bone marrow or peripheral blood. Combining vaccine therapy with sargramostim may make tumor cells more sensitive to the vaccine and may kill more tumor cells
NCT00087191
This clinical trial is studying the amount of EF5 and motexafin lutetium present in tumor cells and/or normal tissues of patients with abdominal (such as ovarian, colon, or stomach cancer) or non-small cell lung cancer. EF5 may be effective in measuring oxygen in tumor tissue. Photosensitizing drugs such as motexafin lutetium are absorbed by tumor cells and, when exposed to light, become active and kill the tumor cells. Knowing the level of oxygen in tumor tissue and the level of motexafin lutetium absorbed by tumors and normal tissue may help predict the effectiveness of anticancer therapy
NCT00030498
Phase I trial to study the effectiveness of erlotinib in treating patients who have metastatic or unresectable solid tumors and liver or kidney dysfunction. Biological therapies such as erlotinib may interfere with the growth of tumor cells and slow the growth of the tumor
NCT01194206
RATIONALE: Radiation therapy uses high energy x-rays to kill tumor cells. Stereotactic body radiation therapy may be able to send x-rays directly to the tumor and cause less damage to normal tissue in patients with liver cancer. Giving stereotactic body radiation therapy may also increase patient eligibility for liver transplant.PURPOSE: This phase II trial is studying how well stereotactic body radiation therapy works in treating patients with liver cancer that cannot be removed by surgery or transplant.