View clinical trials related to Breast Neoplasms.
Filter by:A question is raised about the possibility of accurate localization of the SLN (sentinel lymph node) detected by CTLG (Computed Tomography Lymphography) which offers a detection rate of 100% in many studies In Oncology center, Mansoura University (OCMU), the surgical oncology unit had a previous experience in using charcoal for localization of non-palpable suspicious breast lesions and it showed promising results in comparison to traditional localization methods In addition, we had another study using silver wire for localization of breast masses before neoadjuvant therapy. In the study, the investigators will study the usage of both methods as preoperative localization methods for the SLN detected by CT lymphography in breast cancer patients The investigators suppose that this method can offer two main advantages over the traditional SLN intraoperative methods which are; saving operative time needed for the intraoperative procedure as well as solving the problem of the need for complex logistic preparations especially for the usage of radioisotope method.
Clinicians are currently proposing second-line hormonal treatment to a metastatic patient who is progressing after first-line hormonal therapy if the initial disease was RH + with an increase in survival without recurrence more or less long. The biopsy of the metastatic site or sites is rarely performed because of the heaviness of the gesture. Clinicians are waiting for imaging, which can replace biopsy before the second-line metastatic hormone treatment in breast cancer, which will reveal the metastatic lesion heterogeneity allowing to establish if hormone therapy is the best therapeutic option for these patients and therefore lead to a personalized medicine driven by PET FES. This imaging approach seems all the more interesting as ER expression appears to evolve over time under the pressure of treatment or the natural evolution of carcinomas. Currently, no studies in breast cancer, in an ER + population on the initial tumor and Her2 negative, are listed for the study of ER expression by PET FES before a second metastatic hormone treatment line.
The goal of this research study is to determine if the investigators can predict which participants will respond to endocrine therapy and a cyclin-dependent kinases 4 and 6 (CDK4/6) inhibitor for metastatic breast cancer and which participants will not. Investigators will use information from the tumor tissue and serial blood samples. Investigators hope that a deeper understanding of which participants will respond to this combination and how resistance emerges will allow the investigators to better tailor therapies for metastatic breast cancer. Subjects will have archived tissue or new biopsy collected at study enrollment. This tissue will undergo special molecular testing. Subjects will also have blood collected at study enrollment and periodically thereafter. This blood will also undergo special molecular testing. Information from this testing will not be available to subjects or their treating physicians as the investigators do not know how this information should impact treatment. The investigators will collect information about which treatment the subjects receive and how their cancer responds. Any man or woman being seen at Johns Hopkins for treatment of newly diagnosed estrogen receptor positive (ER+) and/or progesterone receptor positive (PR+) metastatic breast cancer may be eligible.
The purpose of this clinical trial is to study of the molecular features of postmenopausal women with hormone receptor-positive (HR+) HER2-negative advanced breast cancer on first-line treatment with ribociclib and letrozole and, in patients with a PIK3CA mutation, on second-line treatment with alpelisib plus fulvestrant
Partial breast irradiation is typically performed after surgical removal of the tumor. Partial breast irradiation allows for focused radiation to the area from which the cancer was removed, sparing breast tissue from the potential bad effects of radiation compared to radiating the whole breast, which was the standard of care for many years. This study is evaluating the use of partial breast irradiation with NIBB performed before surgery instead of after surgery.This should allow researchers to target the cancer even more accurately and result in less normal breast tissue receiving radiation which may cause less side effects and/or a better cosmetic outcome. In this study partial breast treatment will be given with NIBB in 5 treatments over about 1 week. Surgical removal of the tumor will then be performed between 4-12 weeks following radiation treatment. Researchers believe that participant's risk of complications from surgery will not be higher after getting these radiation treatments than it would have been if participants had surgery first, but that is one of the things researchers are studying.
Prognostic assessment after preoperative systemic therapy (PST) plays a vital role in breast cancer patients. The clinical-pathologic staging system incorporating estrogen receptor (ER)-negative disease and nuclear grade 3 tumor pathology (CPS+EG staging system) can effectively predict prognosis after PST. The Neo-Bioscore has been developed by the incorporation of the human epidermal growth factor receptor 2 (HER2) status into the CPS+EG staging system. But in a real world in China, the both staging systems had limits because of trastuzumab administration varied a lot in China from the United States. This retrospective study will validate CPS+EG and Neo-Bioscore system and explored a modified Neo-Bioscore system in multiple centers.
Breast cancer patients at Sentara RMH Hahn Cancer Center who are treated with accelerated partial breast irradiation will be monitored over a period of 10 years. From this group of patients, local and regional recurrence rates will be determined. Patients in the registry will also take part in assessments of cosmesis and quality of life.
The primary objective of the study is to observe efficacy in terms of progression-free survival rate at 6 months in eribulin-treated breast cancer participants retrospectively.
Candidate markers have been identified thanks to an original approach developed by our research team aiming at detecting ectopic gene expression using public pan-genomic breast cancer data. The same approach had already been used and validated in lung tumors, leukemias and lymphomas. The main objective of the present research is to use tumor samples from patients in a retrospective and prospective cohort to test and validate the relevance of these prognostic markers in breast cancer.
Some tumors are difficult to treat with chemotherapy or radiation. One of the reasons is that areas of the tumor do not have many blood vessels, which makes it difficult for drugs to reach those areas. One way that researchers have recently tried to overcome this problem is by injecting special kinds of bacteria into the tumors. These bacteria have been genetically changed to remove the chemicals that are poisonous to humans, but are still able to cause tumor cells to break down and die. The idea is that these bacteria may be able to assist chemotherapy drugs in fighting cancer. The goal of this clinical research study is to find the highest tolerable dose of one of these bacterial therapies (Clostridium novyi-NT spores) that can be given in combination with pembrolizumab to patients with advanced solid tumors. The safety of this drug will also be studied, as well as whether it can help to control the disease. This is an investigational study. Clostridium novyi-NT is not FDA approved or commercially available. It is currently being used for research purposes only. Pembrolizumab is FDA approved for the treatment of melanoma and different types of head and neck and non-small cell lung cancers. It is investigational to use these drugs in combination with each other in various types of advanced cancers. The study doctor can describe how the study drugs are designed to work. Up to 18 participants will be enrolled in this study. All will take part at MD Anderson.