View clinical trials related to Breast Cancer.
Filter by:The correct categorization of breast density is essential to adapt the diagnostic examination to the needs of each patient. Assessment of breast density is performed visually by radiologists. Some authors have detected that this method involves considerable intra and interobserver variability. On the other hand, automated systems for measuring breast density are becoming more and more frequent. Machine learning is a domain of Artificial Intelligence, which comprises the process of developing systems with the ability to learn and make predictions using data. These systems are designed to aid healthcare professional decision making. In the present work, the multicenter study of external validation of a tool based on deep learning for the categorization of mammographic breast density is proposed.
The objectives of our intervention are to 1. Ease the transition between cancer treatment and active life, and 2. Allow breast cancer survivors to take control of their lives. The primary objective of this study is to: 1) Determine whether individual life coaching (i.e., individualized guidance that helps to put resources into action) can significantly improve quality of life and post-traumatic growth among women who have been recently treated with breast cancer. It is hypothesized that: 1. Participants who receive both "group coaching sessions" and "individualized coaching sessions" will report greater post-traumatic growth and quality of life, and less fear of cancer recurrence when compared to the breast cancer survivors who received only the group coaching sessions or usual care. 2. Participants who receive only the group coaching sessions will report greater post-traumatic growth and quality of life, and lesser fear of cancer recurrence when compared to the participants who receive usual care.
Investigating the potential role of a novel quadrate combination therapy Mifepristone(Antiprogestrone), Tamoxifen, Retinoic acid and Cannabidiol ( selective cyp 26 inhibitor) for treating early breast cancer. Breast cancer is the main cause of mortality among women. The disease presents high recurrence mainly due to incomplete efficacy of primary treatment in killing all cancer cells. Therapy resistance remains a major problem in estrogen receptor-α (ERα)-positive breast cancer. Half of estrogen receptor-positive breast cancers contain a subpopulation of cytokeratin 5 (CK5)-expressing cells that are therapy resistant and exhibit increased cancer stem cell (CSC) properties. Here, we propose a testable hypothesis that treatment of breast cancer with tamoxifen or retinoic acid or a combination of the two, may result in induction or conversion of some ER-positive breast cancer cells to ER-negative cancer cells expressing the basal cytokeratin-5 (CK5) via stimulation of progesterone receptors effect, and production . Therefore, we raised an issue with the answer " Why Antiprogestrone such Mifepristone and cyp 26 inhibitors must be combined with Tamoxifen or its combination with retinoic acid in the era of oncology for treating early breast cancer" .In fact, limited evidence has indicated that induction of CK5+ cells in ERα+ breast cancer is a unique effect of progestin (Prg) but many studies have demonstrated that progesterone (P4) increases CK5+ breast cancer cells. In case-cohort study of 405 incident breast cancer cases, elevated circulating progesterone levels were associated with a 16% increase in the risk of breast cancer. A study demonstrated that tamoxifen induced progesterone receptors (PGR) in short term treatment. Another study showed that High progesterone receptor expression correlates to the effect of adjuvant tamoxifen in premenopausal breast cancer patients. These CK5-positive cells are therapy resistant and have increased tumor-initiating potential. Also, previous work has shown that retinoic acid, a chemical that results from the body's natural breakdown of vitamin A, should act against these CK5+ cells, but clinical trials of retinoids against breast cancer have been largely unsuccessful .Therefore we suggest that combination of retinoiac acid and tamoxifen was unsucssecful in treating breast cancer owing its ability to induce progesterone receptors and production leading to increasing numbers of CK5-positive cells which are therapy resistant . Although retinoid fenretinide reduced the accumulation of CK5+ cells during estrogen depletion. A study investigated the effects of all-trans-RA (atRA) on progesterone production in immature rat GCs cultured without gonadotropin. demonstrated that atRA enhanced progesterone production by upregulating the levels of steroidogenic acute regulatory protein (StAR) and cytochrome P450scc (Cyp11a1). Here, we suggest that tamoxifen or its combination with retinoic acid must be combined with anti-progesterone (Mifepristone) to achieve treatment with significant effect against early breast cancer. Moreover, Numerous studies have shown that CYP2D6 variant carriers (around 50% CYP2D6 variant carriers in Chinese population) will not benefit a lot from tamoxifen, and combined use of CYP2D6 inhibitors will further affect the efficacy of tamoxifen. In addition, All-trans-retinoic acid acts as an inducer of CYP26A1 expression. Which is the second expected cause of unsuccessful trial of Tamoxifen and retinoic acid in breast cancer treatment. Furthermore, The CYP26 inhibitor also induced expression of atRA-responsive genes. All-trans retinoic acid (ATRA) significantly inhibited aromatase activity in a concentration-dependent manner in microsomes isolated from JEG-3 human placental carcinoma cells. One study found that high retinol was significantly. associated with reduced breast cancer risk. Another found a significant trend of reduced retinol levels with more advanced disease stage. A study showed that intake of vitamin A and retinol could reduce breast cancer risk. Therefore we will take the benefit of cyp 26 inhibitor in this trial by combining Cannabidiol, a major phytocannabinoid, as a potent atypical inhibitor for CYP2D6.
Cell-based immune therapy using modified macrophages is a promising therapeutic approach in breast cancer. The objective of this cohort study is to collect tumor samples to develop patients' derived organoids to test the antitumor activity of newly developed CAR-macrophages. Other biological samples will be collected such as blood to analyze the host inflammatory status.
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 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.
Phase 1 of this multi-centre, prospective study aims to obtain a precise estimate of the local incidence of PMPS and identify biopsychosocial risk factors contributing to the development of PMPS. Recognition of the impact of PMPS on function and mood and quality of life in cancer survivors, and identification of risk factors would help physicians institute appropriate pre-operative counselling and preventive measures to reduce the development of PMPS. The investigators aim to follow up on the long-term multi-dimensional effects of PMPS, and continue to develop and validate a risk prediction model for patients at risk of PMPS in the next phase of the study.
In women who undergo mastectomy for the treatment of breast cancer, autologous reconstruction using the deep inferior epigastric perforator (DIEP) flap is a common surgical procedure that aims to restore both the appearance and texture of the breast(s). Specifically, this requires the transfer of skin, fat, and perforator vessels from the abdomen to a recipient artery and vein in the chest to create a viable breast mound. Post-operatively, the abdominal donor site is routinely monitored for wound dehiscence, which has a reported incidence of up to 39% in this patient population; however, this incidence typically varies from 3.5% to 14%. At the investigators' academic institution, patients who undergo DIEP breast reconstruction typically have closed incision negative pressure therapy (ciNPT) or traditional tape dressings applied to the closed abdominal donor site. These dressings are selected according to surgeon preference and typically remain in-situ until hospital discharge. As there remains clinical equipoise regarding the ability of ciNPT to reduce abdominal wound dehiscence, further research in the form of a parallel, two-arm RCT is warranted. The investigators propose a pilot study comparing ciNPT to standard tape dressings to the abdominal donor site incision for patients undergoing autologous DIEP breast reconstruction. As a pilot trial, the primary objective of the study is to assess feasibility outcomes. The design and conduct of the proposed pilot study will mirror the methodology of the definitive trial including randomization, interventions, and clinical outcomes. The secondary objective of this study is to evaluate clinical outcomes comparing ciNPT to standard tape dressings applied to the abdominal donor site incision. Clinical outcomes will include: 1) the incidence of abdominal wound dehiscence at 4 weeks following DIEP breast reconstruction; 2) the incidence of seroma formation and surgical site infection at 4 weeks; 3) quality of life as measured by BREAST-Q physical well-being abdomen and EQ-5D-5L pre-operatively, 1-month, 6-months, and 12-months postoperatively; 4) Scar appearance as measured by the SCAR-Q at 12-months postoperatively. The pilot RCT will demonstrate feasibility of a definitive trial comparing ciNPT to standard tape dressings for the abdominal donor site of patients undergoing DIEP breast reconstruction. A priori hypotheses for each feasibility outcome will be: 1. Eligibility: At least 90% of screened patients will be eligible. 2. Recruitment: At least 85% of eligible patients will be enrolled. To be considered fully enrolled patients must sign the informed consent form, complete baseline demographic questionnaires, and be randomized to a study arm. 3. Retention: At least 85% of randomized patients will complete the study, defined as completion of 12-month follow-up
DCb (docetaxel/carboplatin) regimens as Neoadjuvant Treatment for Triple-Negative Breast Cancer have been recommended by NCCN guideline.Combination of anti-angiogenesis inhibitors is expected to further improvePathologic Complete Response(PCR).This study is to evaluate the efficacy and safety of ADCb (Anlotinib/docetaxel/carboplatin) as Neoadjuvant Treatment in Triple-Negative breast cancer. The endpoint of PCR is used as a surrogate marker for survival. Safety and tolerability assessed by number of grade 4 toxicities and hospitalizations.
Patients with HER-2 positive breast cancer who have poor outcomes after endocrinotherapy and standard chemotherapy can be significantly improved by the use of anti-HER-2 monoclonal antibody trastuzumab. In the current clinical practice of neoadjuvant therapy, trastuzumab combined with chemotherapy can significantly increase the pCR and improve the outcomes in patients. However, there seems to be no available treatment for patients who have no pCR and still have residual tumors except for sequential trastuzumab treatment for 1 year. Compared with trastuzumab, a HER-2 macromolecule inhibitor, pyrotinib has a different site of action and an increased EGFR target. Compared with lapatinib, a small molecule inhibitor of EGFR and HER-2, pyrotinib is an irreversible inhibitor, with the ability to achieve a better curative effect at a lower human plasma exposure level. This trial is designed to evaluate the effectiveness and safety of trastuzumab combined with pertuzumab followed by sequential pyrotinib treatment in non-pCR patients after neoadjuvant therapy.