View clinical trials related to Mammography.
Filter by:Brief Summary A task like breast cancer screening (mammography) can be described as a "hybrid search" task. In basic visual search tasks, observers search for a target among distractors that are not the target. In hybrid search, observers search for two or more target types. In mammography, observers are searching for masses, calcifications ("calcs"), and some other signs of cancer like architectural distortion. In this experiment, the investigators have created a simulated version of mammography where non-expert (non-radiologist) observers can look for simulated masses and calcs. There are two types of stimuli, a 2D version (like an x-ray) and a 3D version (like the output of Digital Breast Tomosynthesis - DBT). The question that is being asked is whether it is better to ask about masses and calcs separately (first one, then the other) or to just let observers look for both at the same time.
To evaluate the safety and efficacy of the proposed investigational device and assess its clinical utility in breast cancer screening and diagnosis to support continuing technology development of the investigational technology.
The LINDA thermal device consists of a thermal camera attachable to a cell phone and an application for connection with an artificial intelligence program based on a convolutional neural network for classification of thermographic breast images. The system is previously fed with thermographic images of the breast and their respective results/diagnostics. The images are processed in an automated way and return a percentage of chance of having a pathological pattern.
The purpose of this research study is to determine the potential benefits of adding information on patients' breast arterial calcification (BAC) results to the standard results letter women receive after mammography. In addition to looking for potential breast cancer, research shows that mammograms can also detect the presence of calcifications within the breast arteries. Those calcifications can be associated with coronary artery disease. Right now, women are not routinely told whether or not they have BAC; that is, it's not part of standard practice to communicate that information to patients. However, previous research has suggested that patients would like to be informed about their BAC status more often. In this study, the team has two goals. First, the team wants to measure the rates of BAC in a large, diverse group of 14,875 women. Because most of the past research on BAC has largely been focused on White mammography patients, the researchers feel it is important to see if the results are similar or different in a more racially and ethnically diverse sample. Second, the study team wants to understand the effects of giving women information on their BAC results as part of their standard post-mammography letter. Specifically, the study team wants to see how sharing that information might affect women's healthcare choices and lifestyle. The research will include 1,888 women in this second part of the study, which will be the first in the literature to explore women's reactions to BAC information. If research shows that women find the information useful, BAC information may be given to women regularly in the future.
The purpose of this study is to evaluate how well women may adopt a Contrast-enhanced Spectral Mammography (CESM) as their yearly breast screening test compared to the standard 2-D or 3-D mammogram.
Women who attend for their screening mammogram will be recalled if an abnormality is detected on the screening mammogram. Calcifications account for 20% of the women recalled to second stage screening. Currently there is no effective imaging tool to determine if the calcifications are cancer or not. Therefore, 90% of women will be subjected to a biopsy. 25-30% of the biopsies will show cancer. Contrast enhanced spectral mammography (CESM) is where contrast is given and then a mammogram performed. The theory is that high risk DCIS and invasive cancers have an increased blood supply and will therefore enhance more than benign lesions within the breast. If CESM can identify calcifications that are cancerous then we maybe able to reduce the number of women who have benign biopsies. This is patient focused as women would not require a biopsy and be able to be reassured at the same visit. This is also a cost-saving for the Trust by reducing unnecessary biopsies. This also supports the findings of the Marmot review by aiming to reduce harm by over-diagnosis.