View clinical trials related to Neoplasm Metastasis.
Filter by:Ipilimumab adds a clinical benefit to radiation therapy in patients with melanoma metastatic to the brain. Melanoma is the third most common cancer causing brain metastases, after cancers of the lung and breast, which appears to reflect the relative propensity of melanoma to metastasize to the central nervous system (CNS). Brain metastases are responsible for 20 to 54 percent of deaths in patients with melanoma, and among those with documented brain metastases, these lesions contribute to death in up to 95 percent of cases, with an estimated median overall survival ranging between 1.8 and 10.5 months, depending upon other prognostic factors. Ipilimumab is an anti-Cytotoxic T-Lymphocyte Antigen 4 (anti-CTLA4) monoclonal antibody that has demonstrated a clinically relevant and statistically significant improvement in overall survival, either alone (second line) or in combination with dacarbazine (DTIC) in 1st line. Ipilimumab has shown activity against brain metastases. According to the European Medicines Agency (EMA) approved label for Yervoy®, the use of glucocorticoids at baseline (commonly prescribed when brain metastases are diagnosed) should be avoided before the administration of ipilimumab. Data show that the use of even high doses of glucocorticoids for the management of immune-related adverse events do not decrease the efficacy of Yervoy®. There is no documented experience on the efficacy of Yervoy® when given concomitantly with radiation therapy and glucocorticoids. In experimental models, radiation therapy is synergistic to anti-Cytotoxic T-Lymphocyte Antigen 4 (anti-CTLA4) strategies (abscopal effect). There are no published results from clinical trials on the interaction between radiation therapy and ipilimumab.
Background: The National Cancer Institute (NCI) Surgery Branch has developed an experimental therapy for treating patients with metastatic cancer that involves taking white blood cells from the patient, growing them in the laboratory in large numbers, genetically modifying these specific cells with a type of virus (retrovirus) to attack only the tumor cells, and then giving the cells back to the patient. This type of therapy is called gene transfer. In this protocol, we are modifying the patient s white blood cells with a retrovirus that has the gene for anti-Melanoma antigen family A, 3 (MAGE-A3)-DP0401/0402 incorporated in the retrovirus. Objective: The purpose of this study is to determine a safe number of these cells to infuse and to see if these particular tumor-fighting cells (anti-MAGE-A3-DP0401/0402 cells) cause tumors to shrink and to be certain the treatment is safe. Eligibility: - Adult's age 18-70 with metastatic cancer expressing the MAGE-A3 molecule. Design: - Work up stage: Patients will be seen as an outpatient at the National Institutes of Health (NIH) clinical Center and undergo a history and physical examination, scans, x-rays, lab tests, and other tests as needed - Leukapheresis: If the patients meet all of the requirements for the study, they will undergo leukapheresis to obtain white blood cells to make the anti-MAGE-A3-DP0401/0402 cells. {Leukapheresis is a common procedure, which removes only the white blood cells from the patient.} - Treatment: Once their cells have grown, the patients will be admitted to the hospital for the conditioning chemotherapy, the anti-MAGE-A3-DP0401/0402 cells and aldesleukin. They will stay in the hospital for approximately 4 weeks for the treatment. - Follow up: Patients will return to the clinic for a physical exam, review of side effects, lab tests, and scans about every 1-3 months for the first year, and then every 6 months to 1 year as long as their tumors are shrinking.
This study consists of a Phase 1b portion aimed to determine the maximum tolerated dose and the safety profile of PF-03084014 in combination with gemcitabine and nab-paclitaxel followed by a Phase 2 portion to evaluate the efficacy of the triple combination in terms of overall survival in patients with metastatic pancreatic ductal adenocarcinoma not previously treated with anticancer therapies.
This phase II trial studies the effectiveness of the combination of stereotactic radiation therapy and ipilimumab in patients with metastatic melanoma that has spread to four or fewer sites in the body (oligometastatic). Stereotactic radiation therapy is a type of external beam radiation therapy that uses special equipment to position the patient and precisely give a either a single large dose of radiation therapy to a tumor or several large doses of radiation therapy to a tumor using precision and accuracy that is guided by onboard daily imaging prior to radiation therapy. Monoclonal antibodies, such as ipilimumab, can block tumor growth in different ways. Some monoclonal antibodies find tumor cells and help kill them or carry tumor-killing substances to them. Giving stereotactic radiosurgery together with ipilimumab may kill more tumor cells by causing addition melanoma antigens to be presented to the immune system.
Radiation therapy (RT) is one of the primary treatments for bone cancer pain due to metastatic cancer disease. About 6 of 10 patients obtain pain relief from RT. There are no established predictors that can be used to select patients that respond to RT. This raises the need to identify potential clinical characteristics and biomarkers that may better select patients for RT. A similar argument can be stated for the development of cachexia; there are currently no predictors that can identify patients who will develop cachexia later in the cancer disease trajectory. Cancer symptoms can be related to inflammation. Both pain, cachexia and depression are associated with inflammation in experimental and preclinical studies . Still, the clinical data on the relationship between inflammation and pain or cachexia are sparse. This is especially true for longitudinal follow-up studies. This study will include 1000 adult patients in a multicenter, multinational longitudinal observation study of patients who receive radiation therapy for bone cancer pain. Demographic data, clinical variables, genetic biomarkers and inflammatory substances will be assessed before start of RT. The primary analysis in the study is to identify potential predictors for pain relief from RT. During follow up the study will also explore for predictors for development of cachexia and which inflammatory substances that are associated with changes in pain intensity, depression and development of cachexia.
The purpose of the study is to evaluate the effect of simvastatin in combination with radiotherapy on the clinical outcomes of patients with brain metastases.
This study will look at two new technologies being developed for measuring cancer in bones. One of these technologies is a substance called Sodium Fluoride (NaF). Fluoride is a normal body substance. The amount that patients will receive has been shown to be very safe. One study of over 400 patients showed no adverse reactions after receiving the recommended dosage. NaF (known as a radiotracer) is taken up into the bones under a normal process and researchers can measure the amount within patient's bones through an imaging system called a Positron Emission Tomography/Magnetic Resonance Imaging (PET/MRI). This system combines aspects of both a PET study as part of the regular standard of care and an MRI study. The belief is that the combination of these two studies will be better than either study alone.People who have enrolled in this study will receive their clinically requested PET/CT scan as part of their normal diagnostic care and will follow all the said recommendations for this study such as not being pregnant, having fasted overnight, etc. Subjects will return within 7 days for a 10 mCi NaF PET/MRI study. The patients' imaging time will be up to 120 minutes depending on the MRI sequences acquired. Imaging for the PET portion of the study will take approximately 20-30 minutes with the rest of the time devoted to MRI sequences.
This is a multicenter, single-arm, extension study to characterize the long-term safety and tolerability of etelcalcetide in the treatment of Secondary Hyperparathyroidism (SHPT) in adults with Chronic Kidney Disease (CKD) on hemodialysis.
This study is designed to evaluate the effect of Conbercept therapy on visual acuity and anatomic outcomes and safety observed in subjects with very low vision secondary to wet age-related macular degeneration.
Entrectinib (RXDX-101) is an orally available inhibitor of the tyrosine kinases TrkA (coded by the gene NTRK1), TrkB (coded by the gene NTRK2), TrkC (coded by the gene NTRK3), ROS1 (coded by the gene ROS1), and ALK (coded by the gene ALK). Molecular alterations to one or more of these targets are present in several different tumor types, including non-small cell lung cancer (NSCLC), colorectal cancer (CRC), prostate cancer, papillary thyroid cancer, pancreatic cancer, and neuroblastoma. Patients with locally advanced or metastatic cancer with a detectable molecular alteration in targets of interest may be eligible for enrollment. Phase 1 will assess safety and tolerability of entrectinib via standard dose escalation scheme and determine the recommended Phase 2 dose. Safety and efficacy will be assessed in the dose expansion portion of the study.