View clinical trials related to Breast Neoplasms.
Filter by:Excessive sitting time (sedentary time) has been associated with risk of insulin resistance and other factors which may be relevant to breast cancer prognosis. This 8-week study tests different strategies for helping breast cancer survivors to modify their levels of sitting time. Participants will be assigned with equal likelihood to one of three groups (1) overall reduction in sitting time, (2) interruption of sitting time with standing breaks, and (3) usual care.
This cross-sectional study of pathophysiology will bring additional informations on body composition of patients treated by adjuvant hormonal therapy for breast cancer. This is a complementary study of Metaca study (AU882).
This study evaluates the addition melatonin and metformin to toremifene in the treatment of locally advanced breast cancer. Third of patients will receive toremifene, other third will receive combination of melatonin and toremifene and other patients will receive combination of metformin and toremifene.
This study evaluates the addition melatonin and metformin to conventional chemotherapy FDC (Fluoruracil, Doxorubicin, cyclophosphamide) in the treatment of locally advanced breast cancer. Third of patients will receive FDCх6 cycles, other third will receive combination of melatonin and FDCх6 cycles and other patients will receive combination of metformin and FDCх6 cycles.
This is a phase II, exploratory, open-label, single arm study of BYL719 monotherapy, a selective phosphatidylinositol 3-kinase (PI3K) alpha inhibitor, in adult patients with advanced metastatic breast cancer progressing after first line therapy. Patients with advanced hormone receptor positive tumors will be required to have an alteration of the PI3K pathway. Those patients with advanced triple negative breast cancers are genetically unselected for this study.
This is a prospective、multicenter、non-comparative interventional case series. 800 breast cancer patients who have already received chemotherapy prior to this study will be enrolled in the group, including 400 patients received the anthracyclines followed taxanes chemotherapy, and the other 400 patients who have received regiments containing no taxanes. Three tumor tissue slices of all the enrolled patients will be collected for TOP2α assay. Meanwhile, 10 years followed-up survey will be conducted. The relationship of TOP2α expression and 5- year or 10-year disease free survival(DFS) and overall survival(OS)will be identified in this study.
In summary, breast conserving therapy (BCT) is an effective, save and widely used treatment technique for early breast cancer. Radiotherapy has shown to give better local control and survival benefit and is an integrated part of BCT. The simultaneous integrated boost (SIB) technique is a new treatment technique in breast irradiation. In this technique the whole breast is irradiated simultaneous with boosting the tumour bed, as part of BCT. Late radiation-induced toxicity has not been investigated in patients treated with radiotherapy using this technique. Proposed study will study the late radiation-induced toxicity, describe patients-rated complaints, quality of life, survival and local control curves in patients treated for early breast cancer with breast-conserving surgery in combination with radiotherapy with the SIB technique as compared to sequential radiotherapy treatment.
Three-dimensional functional Metabolic Imaging (3D MIRA) is a new infrared imaging technology using the Real Imager 8 (RI8) developed by Real Imaging. This technology generates 3D metabolic maps of the breast and based on sophisticated machine learning technology, provides objective risk assessment for the presence of malignant tumor in the breast. The procedure is non-invasive, comfortable and does not involve ionizing radiation. It is based on acquiring infrared images of the breast. Those images are processed and analyzed by computers to provide the objective risk assessment. The technology is intended to be used as a screening tool for breast cancer and emerges as highly useful in women for whom screening mammography is sub-optimal, such as women with dense breast. 3D MIRA is unaffected by breast density and is therefore ideal for evaluating patients with mammographically dense breasts. Real Imaging is continuously developing the technology including image acquisition hardware and objective analysis of the imaging biomarkers. To further improve and optimize this novel metabolic imaging technology, Real Imaging will introduce an improved imaging device. The purpose of this clinical study is to collect more imaging data in order to establish superiority of the newer device over the previous one. The investigators hypothesize is that the new device will be at least as good as the previous one.
The purpose of this study is to assess the efficacy of a PARP inhibitor, rucaparib, in progressing breast cancer patients and who are carrying a BCRAness profile defined by genomic signature or BRCA 1 or 2 somatic mutation, without known BRCA 1 or 2 germline mutation.
The purpose of this study is to adjust the amount of docetaxel participants receive based on the level of docetaxel measured in their blood. This method of dose adjustment is called pharmacokinetic (PK)-adjusted docetaxel. The researchers believe that adjusting the dose of docetaxel using this method will lessen the side effects associated with docetaxel in cancer treatment.