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 ...

Scientists at the Swiss Light Source SLS have succeeded in mapping a piece of brain tissue in 3D at unprecedented resolution using X-rays, non-destructively. The breakthrough overcomes a long-standing ...

In order to understand brain diseases, neuroscientists try to untangle the intricate nerve fiber labyrinth of our brain. Before analyzing brain tissue under a microscope, it is often soaked in ...

Optical and ultrasonic techniques for imaging the living brain have traditionally been limited to low-resolution interrogations or highly invasive craniotomy procedures. Localization-based techniques ...

NEW YORK, NY (Sept. 18, 2025)--A brain imaging technique developed by Columbia researchers has identified areas in the brain’s cerebral cortex—just behind the forehead—that are most damaged by the ...

Researchers have developed a new imaging method, D-PSCAN, which enables minimally invasive, wide-field, high-resolution imaging of the nucleus tractus solitarii (NTS) in living mice. This technique ...

Illinois engineers fused ultrafast imaging with smart algorithms to peek at living brain chemistry, turning routine MRIs into metabolic microscopes. The system distinguishes healthy regions, grades ...

Maximal safe resection of brain tumours relies increasingly on real-time visualisation of tumour boundaries, surrounding vasculature and evolving anatomy. Traditional neuronavigation systems, which ...

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 ...