Cornell researchers built miniature VR headsets to immerse mice more deeply in virtual environments that can help reveal the neural activity that informs spatial navigation and memory function and generate new insights into disorders such as Alzheimer’s disease and its potential treatments.
The same protein accumulates in the joints of both dogs and humans after ACL injury, which means using dogs as a model for study may vastly accelerate advances in understanding of both ACL injury and post-traumatic osteoarthritis.
Growers and conservationists have a new weapon to detect invasive spotted lanternflies early and limit their spread: dogs trained to sniff out egg masses that overwinter in vineyards and forests.
The eyes may be the window to the soul, but the pupil is key to understanding how, and when, the brain forms strong, long-lasting memories, Cornell researchers have found.
A new program at Cornell will tackle critical environmental challenges by integrating advanced AI tools with sustainability research across the campus, thanks to a grant from the National Science Foundation’s Research Traineeship Program.
A tool co-developed by Cornell researchers uses AI and machine learning to solve and predict how human proteins might interface and interact with other proteins, which can greatly accelerate fundamental research and clinical precision medicine.
Buz Barstow, a physicist using synthetic biology to build sustainable energy technologies, comments on China's move to ban exports of rare minerals to the U.S.
Researchers studying artificial intelligence training data and treatment of swelling linked to breast cancer are among the eight Cornell assistant professors who recently received National Science Foundation Faculty Early Career Development Awards.
The Feb. 28 event will provide a forum for scientists, social scientists and humanities scholars to discuss challenges to research support in response to recent major changes to federal funding.
An international team of researchers discovered that coastal urban seagrass ecosystems can significantly reduce human bacterial pathogens, including those with widespread antibiotic resistance, in marine bivalves — a vital food source for people around the world.
