View clinical trials related to Breast Neoplasms.
Filter by:A retrospective cohort study conducted at the Cancer Hospital Chinese Academy of Medical Sciences to compare the effectiveness of palbociclib plus AI therapy and fulvestrant monotherapy as initial endocrine therapy in the patients with HR+/HER2- advanced breast cancer.
Understanding the impact exercise has on a cancer survivor's gut microbiome can improve the health and well-being of cancer survivors by enhancing treatments targeting the gut microbiome. Although scientific studies support a link between exercise and the gut microbiome, rigorous randomized trials needed to confirm this causal link are limited and usually involve supervised exercise. Hence, this proposal tests feasibility of a home-based, remote-only research protocol that is more accessible to cancer survivors unable to attend supervised exercise including but not limited to rural populations. This study will also determine if exercise effects on the gut microbiome differ by factors such as race.
Breast-conserving surgery (BCS) has become the standard-of-care for surgical management of the majority of women with early-stage breast cancer. Successful BCS entails excision of the tumor with an adequate amount of surrounding healthy breast parenchyma, such that negative resection margins are obtained. Despite efforts to obtain tumor-free margins, approximately 20-30% of women still require reoperation. The rationale of this study is to examine the contribution of the adjunctive use of perioperative high-resolution PET-CT specimen imaging in early-stage breast cancer to the identification of all positive resection margins during breast-conserving surgery. Histopathological findings of the breast tumor specimen are applied as the gold standard. After a successful screening phase and after informed consent is provided, the patient will enroll the study. The preparations for the BCS proceed following the routine protocol (i.e. as if the patient would not participate in the study). In addition to these standard preparations, on the day of surgery the patient will receive a study-specific injection with a low dose of a radiotracer substance (18F-FDG; 0.8 MBq/kg). Before injection, the blood sugar level will be measured by a small finger prick. If the blood sugar level is good, the radiotracer substance will be intravenously administered. The injection is given at the nuclear medicine department between 30 minutes and 3 hours before surgery. After the injection was given, the patient will be transferred to the operating theatre. The breast tumor will be removed in the same way as if the patient is not participating in the study. As soon as the tumor is excised, it will be imaged using the specimen PET-CT scanner in the operating theatre. While waiting for these 3D images, the surgeon will remove the lymph nodes, if applicable. The breast surgeon will then evaluate the 3D images of the removed breast tumor. In case of suspected positive margins, the surgeon will excise additional breast tissue to ensure that all tumor tissue is excised during this surgery. For scientific purposes only and if available, the cavity shaves and resected lymph nodes will also be imaged with the specimen PET-CT scanner. No clinical decisions that could affect further treatment will be based on this. After surgery, all excised tissues will be sent to the pathology department. This is standard routine and is also done for patients not participating in the study. A routine follow-up visit will be planned with the surgeon. During that routine visit, a staff member of the study team will ask additional study-related questions regarding possible complications. If the latter is not possible during the standard follow-up visit, a staff member of the study team will contact the patient by phone call 1-3 weeks after surgery. The study is completed after this follow-up visit or phone call.
This study gathers information to create a database to improve the ability to diagnose cancer, predict long term health of breast cancer patients, and help develop future treatment products. This study will provide a foundational platform for therapeutic development and intervention studies in the future and may for therapeutic development and intervention studies in the future, and may advance researchers understanding of the contribution gut bacteria to altered circulating estrogens in breast cancer survivors.
The purpose of the study is evaluate the efficacy and safety of tucidinostat in combination with fulvestrant in patients with hormone-receptor positive advanced breast cancer.
The purpose of this research is to evaluate how to manage the axillary lymph nodes in patients with breast cancer. The investigators will determine if a sampling of the lymph nodes under the arm will give the information necessary to determine if fewer lymph nodes can be removed.
MORE-T trial is designed to investigate the effect of Tamoxifen 40mg (vs. Tamoxifen 20mg) for 2wks in presurgical setting. The greater reduction in Ki-67 might be observed in Tamoxifen 40mg arm compared to the Tamoxifen 20mg arm. Open Label, Phase 2, Randomized with 1:1 allocation
This is a phase II open-label, multicenter trial assessing the efficacy of combination regimen"Dalpiciclib plus Exemestane plus trastuzumab plus pyrotinib"in early triple positive breast cancer patients.
The standard tissue biopsy strategy for cancer detection is not comprehensive enough to profile the whole epi-genomic signatures of breast cancer (BC) and ensure an accurate prognosis and prediction of drug response. Liquid-based assays have the potential to reduce the molecular heterogeneity of BC and a possible utility for improving disease management. In particular, genomic DNA (gDNA) and circulating tumor (ctDNA) can be sequenced for genetic and epigenetic (DNA methylation) profiling of the BC patients to enhance personalized prognosis and prediction of drug therapy. We describe a study protocol for evaluating the clinical utility of the early use of the network-oriented BR(E)2ASTOME algorithm which combine the power of liquid-based assays, advanced epi-genomics platform, and network analysis to identify improve precision medicine and personalized therapy of BC.
Use Convolutional Neural Networks Analysis for Classification of Contrast-enhancing Lesions at Multiparametric Breast MRI. Build an abbreviated protocal, and investigate whether an abbreviated protocol was suitable for breast magnetic resonance imaging screening for breast cancer in high-risk Chinese women, which can shorten the examination time and avoid enhanced imaging while ensuring the accuracy of the diagnosis.