View clinical trials related to Breast Cancer.
Filter by:The purpose of this study is to look for ways to improve breast cancer treatment by giving breast cancer drugs through the skin of the breast. The drug used in this study is a diclofenac epolamine patch and is a nonsteroid anti-inflammatory pain reliever. The drug amount that gathers in the breast, after application of a patch to the skin of the breast, will be measured and compared to the amount that is found in the breast when the patch is applied to the skin of the belly.
This work will use a new approach to measure how surgery effects human biochemistry and metabolism. It will create a metabolic signature or 'phenotype' for surgical injury that will help clinicians choose the right surgical treatments for an individual. This is because metabolism is based on an individual's genes, disease burden and environmental influences such as gut microbiota. This study will use a scientific method based on computational analysis of spectra taken from techniques known as Mass Spectrometry (MS) and Nuclear Magnetic Resonance (NMR) spectroscopy. This science is called 'metabonomics' and it has many advantages. Firstly, it provides a measure of thousands of metabolites at a single moment in time that are unique to the individual and it therefore gives a 'systems' overview of a persons metabolism. Secondly it is able to process many hundreds of samples quickly. The investigators are aiming to integrate the investigators metabolic data with genetic information about patients or bacteria wherever possible. This will be the first time that a 'systems biology' approach has been used in surgery, with potentially significant gains to me made in pre operative risk stratification and optimisation. By performing this analysis at all stages of the surgical journey (preoperatively, during the operation and after the surgery) it will ensure the right treatments are given to the right patient at the right time. By creating longitudinal models of the biochemical responses to surgery, predict at a much earlier stage those patients at risk of developing complications. This will improve outcome after surgery. This work will use a metabonomic approach to create new tools for surgeons to use during operations based on tissue biology. For example the investigators will be able to measure the metabolic content of tumours in real time by measuring the biological content of diathermy smoke. This has the potential to change intra-operative decision making and further improve outcome.
This is a Prospective Clinical Trial without drugs, to determine the HER2 status in the metastasis of patients with primary breast cancer HER2. 32 Sites have been taking part in this Clinical Trial.
This phase I trial studies the side effects and best dose of vaccine therapy in treating patients with metastatic solid tumors. Vaccines made from antibodies and peptides combined with tumor cells may help the body build an effective immune response to kill tumor cells.
RATIONALE: Dehydroepiandrosterone (DHEA) may help relieve vaginal symptoms in female cancer survivors. PURPOSE: This randomized phase III trial studies DHEA to see how well it works compared to placebo in treating postmenopausal cancer survivors with vaginal symptoms.
Sildenafil increases the therapeutic effect of doxorubicin used as treatment for cancers of solid tumors through both an increase in anti-tumor effects and protection from cardiac toxicity.
The primary objective of this protocol is to collect the 2-dimensional (2D) screening and diagnostic images, and 3-dimensional (3D) Digital Breast Tomosynthesis (DBT) scans from patient mammography examinations acquired on various commercially available Full Field Digital Mammography (FFDM) systems and the Siemens Inspiration DBT system, respectively.
The study purpose is to evaluate the effectiveness of a set of culturally appropriate, faith-placed lay health advisor interventions aimed at facilitating smoking cessation and increasing cancer screening among Appalachian participants.
The goal of this research is to further develop novel optical assay systems for intra operative assessment of tumor margins in partial mastectomy or mastectomy specimens.
- Genomic medicine, using genetic information to improve health outcomes, is heralded as the answer to rising medical costs by focusing on prevention and tailored care. Despite its potential, little investigation has focused on how genomic medicine can be applied in health care. To be effective, it requires new ways to learn, deliver, and communicate medical information. It will also raise new ethical questions. - The overall goal of Guilford Genomic Medicine Initiative (GGMI) is to identify the specific challenges in "re-structuring" an existing medical system to integrate genomic medicine, and create solutions that can be used by other medical systems, such as the extensive military medical care system. To accomplish this goal, GGMI includes the development of a large-scale genomic medicine education initiative targeted at the community, providers, and patients, and a clinical systems model to implement strategies to facilitate the integration of genomic medicine into several pilot practices.