View clinical trials related to Neoplasm Metastasis.
Filter by:KIT is a receptor tyrosine kinase that binds to stem-cell factor (SCF), activating a series of downstream effector pathways. KIT is an established therapeutic target in cancer with activating mutations of KIT, such as gastrointestinal stromal tumors (GIST), and significant benefit is achieved with various small molecule inhibitors of KIT such as imatinib mesylate. Moreover, there is increasing evidence implicating KIT mutations as tractable therapeutic targets in melanoma. Additional information is required to characterize the functional role of low-frequency mutations in KIT and to determine whether amplification of wild type KIT is a real driver that can be targeted therapeutically. Except GIST and melanoma, other solid cancers were reported to have KIT mutation even in low frequency. A molecular profiling of the tumors of patients referred to the phase I clinic at the M.D. Anderson Cancer Center showed KIT mutation in 7 patients in total of 431 patients (2%). Hence, the investigators planned this study to apply the molecularly targeted agent, imatinib to various types of cancers harboring KIT mutation or amplification.
Cancer that has spread to the brain, or brain metastasis, is difficult to treat. Meclofenamate is a drug which has been shown to reduce brain metastasis growth in the laboratory. This medicine has been used in the past to treat pain. But, in this study, it will be used to prevent new brain metastasis. This is the first time that meclofenamate will be used in patients with brain metastasis. This is a pilot study which means that the purpose of this study is to determine if a larger clinical trial of meclofenamate is possible in patients with brain metastasis. This study also aims to find out what effects, good and/or bad meclofenamate has on the patient and the cancer that has spread to the brain. The investigators also want to learn more about potential effects that this drug may have in the digestive system.
This study is being done to learn more about health related quality of life factors in people having surgery for colorectal liver metastasis. The investigators will look at how these factors may change over time. The information gained from this study will help the investigators to understand the long-term effects that cancer treatments have on the health related quality of life of patients. This information is of high value and will help doctors talk to patients about the possible effects of their operations. While many patients live a long time after such operations, the studies that have been done do not tell the full story of what patients go through after surgery. This study will help us to understand cancer treatment from the patient's perspective. It will also help cancer patients make better decisions about their treatment options and will help them know what to expect after the operation.
The main objective is to provide original research results that may change clinical practice related to metastatic colorectal cancer. The study will evaluate treatment and patient care at different stages of the disease trajectory and the use of health care for this large group of patients. It will be possible to compare the effectiveness of chemotherapy, radiotherapy and symptomatic treatment given to "real life" patients with the efficacy reported in randomised clinical trials. By using longitudinal information on imaging, biomarkers, clinical staging and place of care it will be possible to improve patient classification at various stages of the disease. Based on this, a more appropriate, individualized treatment for colorectal cancer may be recommended during the phases of the disease trajectory. Participation in this project will not influence the treatment for colorectal cancer. All patients will be treated and followed-up according to current regional and national guidelines.
Brain metastases are the most common brain tumors in adults. It is estimated that around 10-30% of cancer patients would develop brain metastases during the course of their illness. Whole brain radiotherapy (WBRT) is the treatment of choice for the majority of patients with brain metastases. WBRT yields high radiologic response rate (27~56%) and is effective in rapid palliation of neurologic symptoms as well as prolongs time to neurocognitive function decline caused by intracranial lesions. By using conventional fractionation, 33% of patients developed late neurocognitive toxicity while memory impairment was the most common symptom. The incidence is even higher when a formal and sensitive neurocognitive assessment was prospectively evaluated. With more long-term survivors nowadays, it has become increasingly important to minimize neurocognitive function decline and maintain quality of life in patients with brain metastasis. The function of hippocampus is cooperation in learning, consolidation and retrieval of information and essential for formation of new memories. Bilateral and unilateral radiation injury of the hippocampus is known to alter learning and memory formation. Several preclinical studies support the hypothesis of hippocampus-mediated cognitive dysfunction by ionizing radiation. Clinical studies show increase in radiation dose to hippocampus is associated with subsequent neurocognitive function impairment in adult and pediatric patients. Furthermore, the preliminary result of Radiation Therapy Oncology Group (RTOG) 0933 suggested hippocampal avoidance significant reduce the mean relative decline at 4 months from 30% in historical cohort with WBRT to 7% in experimental cohort. Previous studies showed brain structures other than hippocampus are also associated with radiation-induced decline in neurocognitive function. There is presence of placebo effect for interventions seeking improvement in neurocognitive function. In present study, a single blind randomized phase II trial is designed to investigate the effectiveness of neurocognitive function preservation using conformal WBRT with or without hippocampal avoidance.
The purpose of this research project is to test the effectiveness of nivolumab versus nivolumab together with ipilimumab for the treatment of melanoma brain metastases. Patients are eligible to join this study if they are aged 18 years or above and have been diagnosed with melanoma with brain metastases.
PERMED01 is a prospective monocenter clinical trial which aims to evaluate the number patients with locally advanced or metastatic cancer for whom identification of molecular alterations in tumor samples can lead to the delivery of a targeted therapy. PERMED01 will enroll 460 patients in 3 years.
This study is a phase II, prospective, open-label, single arm, single center study of the efficacy and safety of concurrent conventional transarterial chemoembolization (TACE) and sorafenib in patients with hepatocellular carcinoma and extrahepatic metastasis. All of the 55 patients with hepatocellular carcinoma and newly diagnosed extrahepatic (lung, bone, lymph node, adrenal gland) metastasis will be included. On demand conventional TACE will be performed in all the patients after enrollment and can be continued until intrahepatic CR, TACE failure or consent withdrawal. Sorafenib will be started 3-7 days after the first and each subsequent TACE and stopped one day before next TACE and will be continued until sorafenib failure, consent withdrawal or condition worsening by clinical decision. Repeated on-demand TACE and sorafenib should continue until the criteria for treatment discontinuation are met. After initiation of sorafenib combination treatment, patients will be seen and will perform routine examination at week 4 and, after then routine examination will be followed every 6 ± 2 weeks.
This randomized phase III trial studies how well combination chemotherapy with or without ganitumab works in treating patients with newly diagnosed Ewing sarcoma that has spread to other parts of the body. Treatment with drugs that block the IGF-1R pathway, such as ganitumab, may interfere with the ability of tumor cells to grow and spread. Drugs used in chemotherapy, such as vincristine, doxorubicin, cyclophosphamide, ifosfamide, and etoposide, 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. It is not yet known whether adding ganitumab to combination chemotherapy is more effective in treating patients with newly diagnosed metastatic Ewing sarcoma.
The project aims to compare the histopathological and molecular characteristics of tumour tissue from metastases with similar analyses of the primary tumour in the lung, where it is available. The investigators will therefore perform analysis of blood samples if possible, to identify predictive markers in blood samples.