View clinical trials related to Breast Cancer.
Filter by:This study will further evaluate the use of protein identification or protein pattern (signature) found in tears. We hypothesize that differences exist between the protein profile in tear fluid from patients with versus without cancer.
Vorinostat is a histone deacetylase (HDAC) inhibitor which is approved by the U.S. Food and Drug Administration for the treatment of a rare type of cancer involving the skin (cutaneous T cell lymphoma), but not for breast cancer. HDAC inhibitors work by unsilencing tumor suppressor genes and other genes in the cancer cells that are repressed; when the genes are turned back on by the drug, it leads to death of the cancer cells. HDAC inhibitors such as vorinostat have been shown to enhance the effects of chemotherapy and trastuzumab in experimental systems. The purpose of this trial is to determine the optimal dose of vorinostat to use in combination with standard chemotherapy alone (or in combination with plus trastuzumab for HER2-positive disease), and to determine whether vorinostat enhances the effectiveness of standard chemotherapy (+/- trastuzumab) in patients with locally advanced breast cancer.
RATIONALE: Erlotinib and everolimus may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Giving erlotinib together with everolimus may kill more tumor cells. PURPOSE: This phase I/II trial is studying the side effects and best dose of giving erlotinib together with everolimus and to see how well it works in treating patients with metastatic breast cancer.
We hypothesize that radiofrequency ablation after single-insertion image guided vacuum assisted biopsy (IVEB) can be used to achieve negative margins in small unicentric breast cancers (≤1.5 cm).
RATIONALE: Healing touch therapy may be effective in lessening fatigue in women with breast cancer who are undergoing radiation therapy. PURPOSE: This randomized clinical trial is studying how well healing touch works in treating fatigue in women undergoing radiation therapy for breast cancer.
This is a study on how to activate the immune system with a vaccine. The vaccine is made up of two proteins found in breast cancer: telomerase and survivin. The vaccine is given in combination with other drugs that may also have an effect on the immune system and attack the cancer. The goals of the study are: 1. to test the safety of the combination of agents 2. to find out what effects the treatment has on advanced breast cancer
Multidrug resistance (MDR) is a cause of treatment failure in many cancer patients. MDR refers to a phenotype whereby a tumor is resistant to a large number of natural chemotherapeutic drugs. Having prior knowledge of the presence of such resistance would decrease morbidity from unsuccessful therapy and allow for the selection of individuals who may benefit from co-administration of MDR inhibiting drugs. The Tc-99m labeled single photon emitting radiotracers sestamibi and tetrofosmin have shown some predictive value. However, positron-emitting (PET) radiotracers, which allow for dynamic, quantitative imaging, hold the promise of more accurate and specific identification of MDR tumors. Objective: To obtain human safety data, to demonstrate imaging feasibility with FPAC, to obtain human biodistribution and to obtain preliminary evidence of breast tumor uptake concordance with response to therapy.
1. This randomized clinical trial compares a four component behavioral sleep intervention group to an attention control healthy eating group 2. The behavioral sleep intervention is designed to reduce fatigue in women with stages I-IIIA breast cancer receiving anthracycline-based chemotherapy 3. The intervention uses an Individual Sleep Promotion Plan to promote daytime activity and nighttime sleep,and to decrease physchological and symptom distress 4. The healthy eating group receives equal time and attention and information on healthy eating 5. All participants receive a research nurse visit 2 days prior to each chemotherapy treatment, and 30, 60, 90 days after the last treatment, and one-year after the first treatment. 6. Adherence to the intervention is calculated at each time 7. Reliable and valid instruments are used, including wrist actigraphy
The primary objective of this study is to determine if estrogen receptor-targeted therapy with fulvestrant used in combination with Everolimus is an effective and safe therapy for women with hormone receptor positive metastatic breast cancer after failure of aromatase inhibitor therapy.
Over the last 3 decades, a steady shift has occurred in the management of breast cancer. Because it was traditionally viewed as a local disease, many advocated the use of radical surgery to achieve maximum survival benefit. This view has been slowly replaced by a broader biologic view that recognizes the often systemic nature of breast cancer, even when it appears to be localized to the breast. Results from randomized clinical trials have demonstrated that less extensive surgery, or lumpectomy plus radiation therapy, are optimal for local management of early breast cancer. In addition to the less radical approach to surgical treatment of breast cancer, other randomized clinical trials have established the value of postoperative systemic therapy in improving overall survival by eradicating micrometastatic disease, the major cause of mortality from breast cancer. Despite the well-documented benefits of adjuvant systemic therapy, it is not effective in preventing death from breast cancer in all patients who are candidates for such treatment. The worth of such therapy can only be judged in retrospect upon disease relapse, a time when breast cancer is nearly always incurable. Currently, there are few reliable methods to predict the success or failure of a particular postoperative treatment modality, and better ways to predict and optimize outcome are needed. Combination endocrine therapy: Using endocrine agents with different mechanisms of action together has the potential advantage of more effectively blocking ER signaling, thus improving the efficacy of such agents against breast cancer. In the past, attempts to combine endocrine agents for ER-positive breast cancer have had mixed results, depending on the setting and the patient population studied. Endocrine agents without any agonist effect could potentially be used in combination with aromatase inhibitors, under the rationale that the combination would maximally blockade estrogen receptor signaling, thus potentially improving the antitumor effect. Fulvestrant (FASLODEX) is a pure estrogen antagonist with no known agonist effect; thus, it has the potential to provide additional benefit when combined with an aromatase inhibitor. This concept provides the rationale for using the combination of anastrazole and fulvestrant in this study.