View clinical trials related to Breast Neoplasms.
Filter by:This study is being done in order to better understand the biology of an abnormal lesion found in breast tissue called "lobular carcinoma in situ" (LCIS). We are interested in studying LCIS. The LCIS is not a cancer itself, but is a marker for an increased risk of cancer. We would like to look for LCIS in breast tissue removed during surgery from patients with cancer or at high risk for cancer. If LCIS is found, we will search for genes that are expressed (turned on or off) differently than in normal breast tissue. The identification of such genes would help us better understand the biology of LCIS, and its possible relationship to breast cancer.
This is a phase I- II feasibility study for delivering partial breast irradiation (PBI) in selected patients with early stage, lymph node negative, breast cancer after breast-conserving surgery using accelerated Intensity Modulated Radiotherapy (IMRT).
Radiotherapy has been shown to reduce breast-cancer specific mortality in patients at high risk for distant dissemination. It has also been shown to increase rates of non-breast cancer deaths and morbidity due to cardiovascular and pulmonary toxicity. Although treatment planning has improved significantly through the years, recent reports still demonstrate treatment-related morbidity even with 3-dimensional planned techniques. Thus, while 3D planning represents the state of the art treatment for loco-regional radiotherapy for breast cancer, further improvement is needed to continue to decrease heart and lung exposure. The ultimate goal of the proposed research is to determine whether treatment planning using intensity-modulated radiotherapy (IMRT), the "next generation" of radiation treatment delivery systems, results in less radiation exposure to the heart and lungs than the best current RT technique in women with node positive breast cancer. This proposal will test the potential clinical value of IMRT compared to the best standard 3D plan (partially wide tangent fields, PWTF) in the treatment of breast cancer. These two treatment techniques will be studied in a Phase II randomized trial using quantitative indicators of potential cardiac and lung toxicity. The preliminary data generated from this trial will be used to ultimately justify a multi-institutional comparison of the two treatment techniques with long-term clinical cardiac and pulmonary toxicity as endpoints.
The purpose of this study is to find out what effect taking cisplatin in combination with bevacizumab before surgery and then standard chemotherapy plus bevacizumab after surgery will have on participants with Estrogen Receptor (ER) negative, Progesterone Receptor (PR) negative and Human Epidermal Growth Factor Receptor 2 (HER2) negative breast cancer. Cisplatin is used to destroy cancer cells in many types of cancers, and has shown to be effective and have manageable side effects. Bevacizumab is an antibody, which is a protein that attacks a foreign substance in the body. Bevacizumab slows or stops cell growth in cancerous tumors by decreasing the blood supply to the tumors.
The purpose of this study is to evaluate the effectiveness and safety of trabectedin in 3 subpopulations of participants with previously treated progressive metastatic ( spread of a cancer from one organ or part to another non-adjacent organ or part) breast cancer (abnormal tissue that grows and spreads in the body until it kills) participants.
This is a multi-institution double-blind placebo-controlled trial whose main objective is to determine if 6 months of letrozole (2.5 mg daily) can reduce proliferation as assessed by Ki-67 in high risk postmenopausal women on systemic hormone replacement therapy who have random periareolar fine needle aspiration (RPFNA) evidence of hyperplasia with atypia or borderline atypia, and a minimum Ki-67 of >1.5%. The primary hypothesis is that proliferation and expression of other estrogen response genes will be favorably modulated by six months of letrozole relative to placebo without substantially increasing hot flashes or worsening overall quality of life.
The purpose of this study is to evaluate new computer software on breast magnetic resonance imaging (MRI). The information from this study may help doctors and scientists develop better ways to find breast cancer, and may help future patents with cancer.
The purpose of this study is to better understand the genetic causes of cancer and the inherited tendency to develop cancer. To accomplish this, blood specimens and/or saliva samples and/or tumor and normal tissue blocks from patients and families of patients with cancer will be collected. Blood specimens will be frozen and stored for analysis at a later date. Tumor tissue and normal tissue will be stored for analysis at a later date. In order to perform this study, patients and members of their families will be asked to provide blood samples and/or saliva samples. Individuals will be asked to provide a history of cancer in their relatives at the time the blood sample is given. No relatives will be contacted before they have been asked by a family member if they wish to participate in this study. If they do wish to participate, the relatives should indicate this by returning the "Family Member Consent for Contact Form" After we receive this form, arrangements may be made for the family member to send in a blood and/or saliva sample or to come in person to provide the sample to us. Except for family history, no medical information provided by one member of a family will be discussed with other family members. At the end of this form, we will also ask for your permission to be contacted in the future to discuss information about your health, additional research with your samples and/or certain research findings possibly related to your sample.
The purpose of this study is to evaluate the impact of MPA alone and in combination with low dose oral chemotherapy in patients with ER- and PR- advanced breast cancer.
This single arm study will assess the efficacy and safety of combination first-line treatment with docetaxel + Xeloda + Avastin in patients with inflammatory or locally advanced breast cancer. Patients will receive 3-weekly cycles of Avastin (15mg/kg i.v. on day 1 of each cycle), docetaxel (75mg/m2 i.v. on day 1 of each cycle, after Avastin) and Xeloda (2000mg/m2 p.o. on days 1-15 of each cycle). Four cycles of chemotherapy are planned, plus an optional additional two cycles; after chemotherapy patients will be assessed for surgery. The anticipated time on study treatment is 3-12 months, and the target sample size is <100 individuals.