Columbia University biomedical engineers have created BeatProfiler, a new comprehensive tool that uses AI to analyze heart cell function. It's the first system to integrate the analysis of different heart function indicators, such as contractility, calcium handling, and force output into one tool, speeding up the process significantly and reducing the chance for errors. Source: Columbia University Engineering.
A collaborative NIH-funded team is using AI to mine common chest CT scans to predict mortality. Their research identified a collection of cardiac factors that were predictive of death in a large group of patients, potentially setting the stage for improved cardiac screening.
Researchers from Mass General Brigham and their collaborators present Tripath: new, deep learning models that can use 3D pathology datasets to make clinical outcome predictions. In collaboration with the University of Washington, the research team imaged curated prostate cancer specimens, using two 3D high-resolution imaging techniques. Tripath performed better than pathologists and outperformed deep learning models that rely on 2D morphology and thin tissue slices. Source: Mass General Brigham
This meeting aims to facilitate meaningful research connections by introducing extramural investigators to NIH resources and IRP engineers, scientists, and clinicians.
The fifth installment of the NIBIB National Technology Centers (NCBIB) Webinar Series showcases the three additional centers specializing in Magnetic Resonance Imaging (MRI) methods for biomedical research and clinical translation.
The National Academies will host a hybrid public workshop to explore the application of artificial intelligence (AI) in neuroscience research and discuss how neuroscientific discoveries have aided in the development and advancement of AI technologies.
The fourth installment of the NIBIB National Technology Centers (NCBIB) Webinar Series showcases the first three centers specializing in Magnetic Resonance Imaging (MRI) methods for biomedical research and clinical translation. Gain insights into the latest advancements in tools and technologies developed by NIBIB-funded P41 Centers.
This workshop will review the strategies of hydrodynamic and thermodynamic analytical methods for the characterization of biological macromolecules and their interactions in solution.