View clinical trials related to Metastatic Breast Cancer.
Filter by:Metastatic breast cancer (MBC) remains an incurable disease and despite an improvement of the effect of systemic treatments. After relapse on first-line non-steroidal aromatase inhibitor, current clinical practice and treatment guidelines include tamoxifen, fulvestrant (an ER antagonist) and exemestane as available options (NCCN treatment guidelines 2012), but in this context of resistance, their efficacy are poor. Some results confirm the possibility to improve the efficacy of tamoxifen in metastatic setting by a combination with therapy targeting signal transduction pathways. Other transduction pathways seem to be involved in endocrine sensitivity/resistance, such as RAS/RAF/MEK/MAK pathway. LY2228820 inhibits the activity of p38 MAPK (selective inhibitor of the α and β isoforms of p38 MAPK in vitro) and reduces phosphorylation of its cellular target, MAPK-activated protein kinase 2 (MAPKAP-K2).
The objective of this study is to apply Whole-body DW imaging alongside the routine management of patients requiring systemic therapy for metastatic breast cancer to compare the time to progression of individual liver metastases within and between patients following stable disease or partial response to palliative systemic therapy for breast cancer.
The purpose of this study is to determine whether lucitanib is safe and effective in the treatment of patients with FGF aberrant metastatic breast cancer, as well as in the treatment of patients with biomarker negative (FGF non-aberrant) metastatic breast cancer.
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).
This is a phase II study that combines Trastuzumab with Pertuzumab to see how it works in women age greater than 60 who have been diagnosed with HER2/neu overexpressed locally advanced and/or metastatic breast carcinoma.
This is a feasibility study to demonstrate the team's ability to collect bone marrow aspirates and biopsies for research purposes from women with metastatic breast cancer.
The primary objective is to compare the phenotype and genotype of the primary tumor with those of its metastases in order to optimize the treatment of metastatic disease, in patients presenting with first metastatic progression of breast cancer.
This study consists of two parts. In a phase Ib part, investigators will explore the recommended dose of gemcitabine, cisplatin, and RAD001 combination in patients with metastatic TNBC. After completing the phase Ib part, investigators will review the data and discuss with Novartis before the start of a phase II part. In the phase II part, investigators will compare the efficacy of the gemcitabine and cisplatin with or without RAD001 in patients with metastatic TNBC.
Deliver oxliplatin and 5-FU via HAI to breast cancer patients with liver-only or liver-predominant metastases who have failed at least one line of systemic chemotherapy in metastatic setting.
In this study, the investigators are testing the effectiveness of the combination of eribulin, pertuzumab and trastuzumab to learn whether this combination of drugs works in treating advanced HER2-positive breast cancer that had received at least one prior treatment previously. At this point, the standard treatment for HER2-positive cancer that has progressed (grown) after a first treatment is chemotherapy combined with therapies that target the HER2 protein (e.g., trastuzumab or lapatinib).