View clinical trials related to Breast Neoplasms.
Filter by:This observational study will evaluate the efficacy, safety, tolerability and participant reported quality of life of trastuzumab (Herceptin) subcutaneous (SC) therapy in participants with HER2-positive early breast cancer in routine clinical practice. Data from eligible participants will be collected for the duration of their treatment (approximately 1 year) and for 1-2 years of follow-up.
This is a multi-center, randomized, double-blinded, placebo controlled trial.
This pilot research trial studies collecting, analyzing, and storing samples from patients with triple negative breast cancer (breast cancer cells that do not have estrogen receptors, progesterone receptors, or large amounts of human epidermal growth factor receptor 2 protein) that has spread to other places in the body receiving anti-cancer therapy. Studying samples of tissue, blood, buccal swab, saliva, and urine in the laboratory from patients receiving anti-cancer therapy may help doctors learn more about changes that occur in deoxyribonucleic acid (DNA) and identify biomarkers related to cancer.
Current patient work-up, including conventional imaging and pathological assessment of just one single biopsy, might be insufficient to identify metastatic breast cancer patients, who possibly benefit from first-line anti-hormonal or anti-HER2 therapy. As receptor conversion of the tumor is found quite frequently and molecular heterogeneity can occur within one patient, up-to-date whole body information is necessary to determine estrogen receptor (ER) and/or human epidermal growth factor receptor 2 (HER2) receptor status and subsequently guide therapy decision. With molecular imaging via PET this information can be obtained in a non-invasive, patient friendly way. Furthermore, to improve and individualize treatment and be able to identify (new) drug targets and biomarkers, sampling of venous blood, circulating tumor cells (CTC), as well as circulating tumor DNA, microRNA (miRNA) and molecular characterization of one metastasis at the beginning and, if feasible, of an additional biopsy during therapy, is necessary.
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.
The application of FCH PET in breast cancer diagnosis has not been reported. We hypothesize that FCH reveals choline metabolic profiles of breast cancers, and shows the similar pathophysiological mechanism to choline on proton MRS, and our study goals are: 1. To investigate and compare the diagnostic performance of proton MRS and FCH PET for localized findings on mammography and breast ultrasound. 2. To investigate whether FCH PET findings are correlated with choline signals on proton MRS. 3. To evaluate if choline, water and lipid signals on proton MRS, FCH PET are associated with factors related to clinical outcome and prognosis- that is, molecular markers, tumor staging, histologic grade of breast cancers. 4. For localized advanced breast cancer, to investigate the treatment response to NAC using proton MRS and FCH PET, and to evaluate which modality is more sensitive. 5. To investigate the usefulness of FCH PET for whole body staging for breast cancer patients.
Hormone receptor-positive tumors are the most common breast cancers in postmenopausal women, and drug therapies, which block the production or effects of estrogen, are the mainstay of treatment in these patients. Due to their effectiveness in postmenopausal women, aromatase inhibitors (AIs) are the standard of care for long-term estrogen suppression in these patients. Estrogen deficiency, however, results in multiple side effects. Some of the most common side effects in women taking AIs are joint and muscle aches, which promote physical deconditioning. Because of the long term use of AIs in postmenopausal breast cancer patients and the improvements in cancer-related outcomes that are observed with their use, identifying methods to reduce these side effects to maintain adherence to treatment is important. Exercise interventions in breast cancer patients also improve quality of life and reduce fatigue. Understanding the role of exercise in AI side effect prevention will allow us to translate these findings into therapy guidelines.
The purpose of this study is to determine whether accelerated treatment with custom-made compression sleeve is more effective than standard procedure in the treatment of mild and moderate arm lymphedema secondary to primary cancer treatment.
The study is being conducted to determine whether neoadjuvant endocrine therapy with fulvestrant or the combination of anastrozole and fulvestrant, is better than anastrozole when given before surgery to shrink the cancer and stop it from growing. Anastrozole inhibits tumor growth by reducing the levels of estrogen and has been approved by the Food and Drug Administration (FDA) of the United States for use after surgery for postmenopausal women with estrogen receptor positive breast cancer. It is also considered a standard of care to give anastrozole for a few months before surgery to shrink the tumor. Fulvestrant inhibits tumor cell growth by reducing the levels of estrogen receptor in the tumor cell. It is not approved by the FDA for use in women with early stage breast cancer before or after surgery, but is approved by the FDA for patients with advanced (Stage 4) estrogen receptor positive breast cancer that has spread to other parts of the body.
The purpose of this study is to assess the efficacy and safety of vintafolide alone compared to vintafolide plus paclitaxel and paclitaxel alone in participants with with 100% positive folate receptor (FR) triple negative breast cancer (TNBC). The primary hypothesis of this study is the vintafolide alone and/or vintafolide + paclitaxel will improve progression free survival (PFS) in participants with FR (100%) TNBC compared to paclitaxel alone.