View clinical trials related to Breast Neoplasms.
Filter by:This study is a phase I, single arm, open-label trial of PD0332991 in combination with Paclitaxel in patients with Rb-expressing metastatic breast cancer. Up to 20 patients are anticipated to be enrolled to reach the Maximum Tolerated Dose (MTD) of PD0332991 in combination with Paclitaxel. Once the MTD is established, an additional expanded cohort of 10 patients will be enrolled at that dose to establish the Recommended Phase 2 Dose (RP2D), obtain additional safety data and perform exploratory biomarker studies.
Currently, many breast center patients with a positive family history receive information about BRCA testing after breast cancer diagnosis, typically after definitive breast surgery or at a time point that does not allow them to use testing results in making their surgical decision. Diagnostics, decisions and interventions are often out of sequence, resulting in test information not available in time for decisions. Tests are often repeated. Decisions and interventions are delayed, are not understood by breast cancer patients or proceed without the test information, resulting in suboptimal care and resource waste (Donaldson MS. 2005, Katz SJ 2007, IOM 2001). In this study, BRCA testing information will be delivered to patients at the point of breast imaging. For patients that are diagnosed with breast cancer, this provides ample time to use the test results in making their surgical decision, if they elect to be tested. The investigators will work with health care providers to insure family history data are collected at the breast imaging visit, develop a standardized BRCA patient education handout, enlist health care providers to insure the information is delivered to the appropriate patient population, and coordinate scheduling with genetic counseling services to insure patients are promptly seen. The investigators hypothesis is that an intervention of providing patients indicated for genetic/familial risk with timely information and opportunity to access genetic counseling during breast imaging will shift BRCA testing to before definitive breast cancer surgery, for patients with a breast cancer diagnosis, and could impact surgical decisions. The investigators will identify barriers to this intervention from the perspective of patients, physicians, nurses, and genetic counselors. The investigators will then adjust the intervention to overcome the barriers and will test the intervention at the point where genetic/familial risk assessment based on NCCN guidelines is (or should be) conducted at breast imaging. If indicated, patients will be provided information and will be referred to genetic counseling to consider BRCA tests.
AIM OF STUDY Primary Efficacy Variable: The primary study objective is the proof of efficacy, measured by progression free survival (PFS) in the treatment of metastatic or locally inoperable recurrent breast cancer. Progression-free survival (PFS) is defined as the time from randomisation to disease progression or death. Secondary Efficacy Variables: - Clinical benefit (CR+PR+SD) - ORR (CR+PR) - Time to progression - Time to next Treatment (TTT) - Overall survival - Safety profile
Chemo-N0 (1993-1998) is the first prospective randomized multicenter trial in N0 BC designed to prospectively evaluate the clinical utility of a biomarker. It used uPA/PAI 1 as stratification criteria and randomized high-risk patients to chemotherapy versus observation; low-risk patients remained without any systemic therapy. The trial was designed to answer two principle questions: 1. Can the reported prognostic impact of uPA and PAI 1 be validated in a prospective multicenter therapy trial? Does low uPA/PAI 1 identify those low-risk N0 patients who are candidates for being spared necessity and burden of adjuvant chemotherapy? 2. Do uPA/PAI 1 high-risk patients benefit from adjuvant CMF chemotherapy?
The single shot partial breast irradiation (SSPBI) trial was designed as a prospective Phase II "single-arm study". The use of a single dose tumor bed is expected to be very effective in terms of tumor control, but it could increase the incidence of radiation induced erythema. Therefore, the investigators assumed that a decreased DNA repair capability, as well as a reduced detoxification of the damage caused by oxidative stress could explain the increased acute toxicity, i.e. a higher incidence of erythema after a single dose. For this reason the investigators decided to investigate SNPs of genes involved in antioxidant and DNA damage repair pathways such as GST, XRCC1, XRCC3 and RAD51. The investigators assumed an erythema rate of 20% and 54% in patient groups at low and high risk, respectively, (groups were identified based on the absence/presence of the above polymorphisms alone or in combination), thus the minimum sample size was 56 patients with α=0.05, 2-tailed test and a power of the study of 80%.
We aimed to evaluate the noninferiority of short-term anthracycline-free chemotherapy (TC, six cycles of docetaxel and cyclophosphamide) or short-term anthracycline-based chemotherapy (CEF-T, three cycles of cyclophosphamide/epirubicin/fluorouracil followed by three cycles of docetaxel) to a standard anthracycline/taxane-containing chemotherapy (EC-P, epirubicin, and cyclophosphamide for four cycles followed by paclitaxel for twelve weeks) in HER2-negative operable breast cancer.
If AZD6244 is able to increase ER expression in ER-negative/low cancers then it may be possible to effectively use hormonal therapy in these patients resulting in improved outcomes. The investigators propose a single-arm Simon two-step study to examine whether treatment with AZD6244 will result in increased ER expression in ER-negative/low primary breast tumors.
The purpose of this study is to determine if the addition of metformin to standard chemotherapy improves progression free survival in women with metastatic breast cancer.
This is a pilot study that will compare two systems of breast cancer follow up care and will evaluate a number of parameters indicating quality and efficiency of care delivery as well as patient satisfaction with care. Approximately 100 breast cancer patients who have completed the acute phase of treatment will be randomized to one of two follow up care plans.
Breast cancer is the most commonly diagnosed cancer and the second leading cause of cancer deaths in American women. Metastatic disease including metastatic breast cancer unfortunately remains incurable. One reason is due to the inability to develop specific therapies for specific cancer subsets. The use of modern genomic techniques has significantly enhanced our recent understanding of breast cancer biology. Five distinct breast cancer subsets have been recognized, one of which is basal-like breast cancer. Basal-like breast cancer is typically estrogen receptor (ER) negative, progesterone receptor (PR) negative and human epidermal growth factor receptor 2 (HER-2-Neu) negative. This is referred to as triple negative breast cancer or TBNC. TBNC represents a significant proportion of breast cancer patients (10-20%) and has a poor prognosis with no targeted approach to therapy as of yet. Tigatuzumab is a humanized monoclonal antibody targeting a death receptor on the breast cancer cells. Previous studies have shown that combining antibodies with selected chemotherapy agents have induced tumor cell death. The hypothesis of this study is to use tigatuzumab and combine it with Abraxane to serve as a targeting agent in metastatic TBNC patients.