View clinical trials related to Breast Cancer.
Filter by:Every year millions of mammograms are performed worldwide, representing the primary examination for the early diagnosis of breast cancer. Despite continuous advances in medicine and technology, an aspect of mammography has not changed in over fifty years: the breast is still compressed on the detector because this allows to reduce the thickness of the breast thus improving the quality of the diagnostic image and reducing the dose of radiation necessary to obtain a clear image. Many women perceive as painful this compression, including women who have been treated for breast cancer. Pain can discourage asymptomatic women to present themselves periodically to screening mammography, while an increasing number of women in follow-up after conservative surgery have to withstand the pain caused by mammography. Some studies mention various factors that are responsible for pain when performing mammography: breast sensitivity, anxiety level, expected pain and staff attitude. Some studies have also identified breast density, breast volume and menstrual phase as other influencing factors, although not all studies support these hypothesis. The technical characteristics of the equipment can greatly affect annoyance, sense of oppression, pain. The technological proposals to reduce the discomfort of the patients concern various items: flexible compressors, self-compression devices under the supervision of the technician who performs the positioning and the minimum initial compression, environmental factors such as equipment noise reduction, chromatic, sound and sensory effects (eg: aromatic diffusers). The aim of our study is to evaluate the effectiveness of the self-compression compared to the standard one, in reducing annoyance, a sense of oppression and pain, and to evaluate the difference of the average glandular dose given to the woman for each projection. Self-compression may help reaching better compression tolerating the discomfort and pain induced thus allowing to achieve a lower thickness, a lower glandular dose and a better image.
To figure out whethetr 18F-FES PET/CT could influence the staging and management of newly diagnosed Oestrogen Receptor‑positive Breast Cancer Patients.
Radiation applied to the preserved breast during radiotherapy treatment activates numerous molecular cascades in tumor bed adjacent cells causing an inflammatory state. During this process, pre-clinical studies demonstrated CD11b + and CD11b+cKit+cells mobilization in the blood. These cells are involved in numerous processes during tumor progression/control and metastases development. The expected results in clinical setting allow us to investigate the development of innovative therapeutic and monitoring strategies. The clinical repercussions would consist in identifying new predictive and prognostic targets in breast cancer.
As much as 45 to 60% of patients treated with hormonotherapy (HT) for breast cancer (BC) suffer from osteoarticular pain during treatment. Secondary effects have become a real issue because of their consequences on the patients' quality of life, but also on treatment efficacy and survival when they induce dose reduction or premature withdrawal of treatment. Additional medicines (acupuncture, hypnosis, yoga) have become more and more popular these last years. 48 to 80% of patients with BC eventually choose them. A review comparing efficacy of various therapies to decrease osteoarticular pain concludes to a highest efficacy of anti-inflammatory treatments, paracetamol and yoga. With this project, the investigators will assess the feasibility of a therapeutic yoga program with home practice for patients with breast cancer treated with hormonotherapy. The investigators will measure adhesion of the patients to perform yoga postures in an autonomous manner. Our study will also allow collection of data on the effect of such a program on quality of life, in view of setting-up an intervention study.
To explore the real world situation of trastuzumab and lapatinib combined chemotherapy in China, and to explore the relationship between progression free survival and treatment.
Correct performance of therapeutic lymphatic exercises has the potential to relieve lymphedema symptoms and optimize limb volume and lymph fluid level, in turn to improve breast cancer survivors' quality of life and reduce the risk of lymphedema. Kinect-TOLF (Kinect-Enhanced The-Optimal-Lymph-Flow Training System) is an innovative intelligent Kinect-enhanced training system to teach patients to perform the lymphatic exercises correctly. The Kinect-TOLF training system is not a medical device but a computer/mobile and motion-sensor program that helps patients to perform the lymphatic exercises correctly. The Kinect system can automatically detect whether a user is performing the set of lymphatic exercises correctly in real time and provide instantaneous feedback to the user, thus enhancing patients' self-efficacy to perform the lymphatic exercises correctly. The goal of the proposed project is to evaluate the usability and feasibility of Kinect-TOLF.
Irradiation of level III and IV draining nodes in breast cancer patients is often associated with dysphagia, requiring treatment with FANS and/or steroids. The present randomized phase III trial determined whether Zinc-L-Carnosine ( Hepilor), prevents or delays the onset of dysphagia in these patients.
The study should evaluate distribution of 99mTc- ADAPT6 in patients with primary HER2-positive and HER2-negative breast cancer. The primary objective are: 1. To assess distribution of 99mTc- ADAPT6 in normal tissues and in tumours over time; 2. To assess kinetics of 99mTc- ADAPT6 in blood; 3. To evaluate dosimetry of 99mTc- ADAPT6; 4. To obtain initial information concerning safety and tolerability of 99mTc- ADAPT6 after single intravenous injection: The secondary objective is: 1.To compare the tumour imaging data with the concerning HER2 expression obtained by immunohistochemistry (IHC) or fluorescent in situ hybridisation (FISH) analysis of biopsy samples:
The primary objective of this study is to obtain infrared (IR) images and video and three-dimensional (3-D) scans of patients referred for biopsy based on the results of their diagnostic breast exam(s). This research study is investigating infrared imaging (also referred to as infrared thermography, or digital infrared thermal imaging (DITI)) of breast cancer. The infrared images collected in this study will be used to construct a computational biothermal engineering model of the cancerous breast. Patients will undergo standard breast cancer screening procedures as part of routine care at Parkland Comprehensive Breast Center. For any patients who are referred for biopsy based on the results of their breast cancer screening procedures, this research study will take infrared images of the patient. Patients will undergo infrared imaging prior to biopsy but will not delay biopsy or treatment; infrared images & video may be recorded at biopsy visit. The biopsy will confirm/diagnose whether the patient has a benign or malignant condition.
Screening programs and advances in imaging have led to more breast lesions being diagnosed at an impalpable stage. Multiple localisation techniques for nonpalpable breast lesions have been developed during the past decades. Specifically, several alternatives to the golden standard hooked-wire technique have become available, of which magnetic seed localisation is one of the newest approaches. Since September 2018, Magseed® localisation is the standard of care for localising impalpable breast lesions in UZ Leuven. In this study, the oncological safety, the clinical safety and surgeon satisfaction of Magseed® localisation will be assessed and retrospectively compared to hooked-wire localisation.