View clinical trials related to Metastatic Breast Cancer.
Filter by:The purpose of this study is to examine the safety and efficacy of Ruxolitinib in combination with Trastuzumab in treatment of HER2 positive metastatic breast cancer. Ruxolitinib (Jakafi) is an Food and Drug Administration (FDA) approved treatment for myelofibrosis (a disease of the bone marrow), but its safety and efficacy in breast cancer patients is not known. Trastuzumab (Herceptin) is an FDA-approved treatment for HER2 positive breast cancer. The safety and efficacy of both treatments given in combination is not known. It is hypothesized that Ruxolitinib in combination with Trastuzumab will demonstrate efficacy in treating Metastatic HER2 Positive Breast Cancer subjects, and will have a tolerable safety profile in this patient population.
The purpose of this study is to demonstrate bioequivalence of IG-001 versus nab-paclitaxel in female patients with metastatic or locally recurrent breast cancer. In addition, the study will compare the safety and tolerance of IG-001 and nab-paclitaxel during the bioequivalence 2-period crossover portion of the study. The study will also evaluate the long-term safety of IG-001 over repeated cycles, up to 4 additional cycles of administration.
The aim of the trial is to test the hypothesis that the benefit of denosumab is maintained if administered only every 12 weeks as compared to every 4 weeks.
The study will follow a descriptive design involving a survey. Data collection will involve paper based questionnaires. The questionnaires have been developed in conjunction with breast cancer support groups associated with the Irish Cancer Society and patients.
This phase I/II research study is evaluating a combination of drugs called paclitaxel and ruxolitinib as a possible treatment for inflammatory breast cancer. Ruxolitinib is a newly discovered drug that has been shown to block a pathway (called the IL6/JAK/Stat pathway) that may be important in cancer, including breast cancer. Blocking this pathway may stop cancer cells from growing. Ruxolitinib has been approved by the FDA for patients with bone marrow disease, and this is the first study using this drug in combination with paclitaxel for breast cancer. Paclitaxel (also called Taxol) is an FDA drug approved for breast cancer patients. Paclitaxel works by blocking the small microtubules inside cancer cells and preventing cell growth. Information from laboratory experiments suggests that ruxolitinib might also have effects on breast cancer.These studies have shown that ruxolitinib may make paclitaxel more effective.
There is clinical benefit of docetaxel administered to patients who have progressed to 3 or more lines of chemotherapy including prior exposure to paclitaxel or docetaxel; using docetaxel in metastatic stage breast cancer previously exposed to taxanes equal therapeutic responses are obtained that it never received taxanes.
This is an international (4 countries) randomized phase III study with 2 cohorts, patients will be randomized 1:1 to endocrine therapy (cohort 1: exemestane 25 mg daily, cohort 2: fulvestrant 500mg days 1 and 15 cycle 1 and then day 1 every 4 weeks) plus palbociclib (125 mg daily x3 weeks every 4 weeks) vs. capecitabine (1,250 mg/m2 twice daily x2 weeks every 3 weeks). Postmenopausal patients with HR+/HER2 MBC are eligible if resistant to previous nonsteroidal aromatase inhibitors (NSAI) (letrozole or anastrozole) in cohort 1 or previous aromatase inhibitors (AI) (letrozole, anastrozole or exemestane) in cohort 2 defined as: recurrence while on or within 12 months after the end of adjuvant treatment with NSAI/AI or progression while on or within 1 month after the end of treatment with NSAI/AI for MBC. Previous chemotherapy is permitted either in the (neo)adjuvant setting and/or as first line for MBC. Patients must have measurable disease according to RECIST 1.1 or bone lesions, lytic or mixed, in the absence of measurable disease.
The Wnt proteins belong to a family of proteins that have been demonstrated to play a role in the formation and dissemination of tumours. The present project focuses on the critical role of the Wnt-5a protein in the pathobiological processes that lead to metastatic cancer disease. WntResearch has identified a formylated 6 amino acid peptide fragment, named Foxy-5, which mimick the effects of Wnt-5a to impair migration of epithelial cancer cells and thereby acting anti-metastatic. The aim of the present clinical phase 1 trial is to establish the recommended dose for a clinical phase 2 study and thereby further develop Foxy-5 as a first in class anti-metastatic cancer drug. Foxy-5 is designed to inhibit the development of metastasis by reducing the motility of cancer cells and should thereby increase the survival rates of patients with solid malignant tumours.
This phase I/II study is designed to compare different treatment schedules of a personalized anti-cancer vaccine protocol which combines the cryoablation of a selected metastatic lesion with intra-tumor immunotherapy. The cryoablation causes the tumor to release tumor-specific antigens into the surrounding environment. The injection of bioengineered allogeneic immune cells, AlloStim(TM), into the lesion is designed to modulate the immune response and educate the immune system to kill other tumor cells.
Genes are the basic "instruction book" for the cells that make up our bodies and are made out of DNA. Many research studies are done to find the best possible way to treat patients with cancer. Recently there has been a great deal of interest in developing new anticancer agents that are more targeted to a patient's individual genetic information, as well as diseases caused by defects in a person's genes. Identification of precisely which treatments to use against a specific patient's tumor is challenging. In this study, four cutting-edge technologies will be used to identify genomic (information we get from DNA and RNA) and proteomic (information we get from proteins) targets for the treatment of your tumor. These four tests will be used together to gather information about your tumor giving doctors and scientists a better understanding of the structure of your tumor and what the best treatment or combination of treatments may be for you. The therapy you receive to treat your tumor will be based on your medical history, previous treatments for your disease if applicable, current state of health, and the findings from these four tests. The therapy you ultimately receive will be selected by your doctor in consultation with a panel of experts in cancer and cancer genomics (the Treatment Selection Committee).