Artificial intelligence (AI) systems are computational models that can learn to identify patterns in data, make accurate predictions or generate content (e.g., texts, images, videos or sound ...

A new international study led by researchers at Karolinska Institutet demonstrates that it is possible to detect subtle changes in the brain and identify early signs of hereditary frontotemporal ...

Gene therapy that can cross the blood–brain barrier represents a non-invasive way to map gene expression in the brains of ...

Brain tumour imaging and segmentation techniques represent a rapidly evolving field that employs advanced imaging modalities and state‐of‐the‐art computational models to accurately detect and ...

CU Boulder postdoc Catherine Saladrigas is helping bring high-resolution imaging into miniature microscopes for neuroscience research. In a promising leap forward for imaging, Saladrigas and a team of ...

An international study led by researchers at Karolinska Institutet in Sweden demonstrates that it is possible to detect subtle changes in the brain and identify early signs of hereditary ...

A 3D atlas of developing mice brains using advanced imaging and microscopy techniques has been created by a team of researchers at Penn State College of Medicine and collaborators from five different ...

A team of researchers has created a 3D atlas of developing mice brains, providing a more dynamic understanding of how the mammalian brain develops. This atlas provides a common reference and ...

In A Nutshell Researchers used a light-based brain imaging technique in mice to watch, in real time, what happens in the brain during a psychedelic experience and found a specific electrical rhythm ...