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 ...

A new study led by Western researchers reveals how the brain processes multi-sensory audiovisual information by developing a new 4D imaging technique, with time as the fourth dimension. The ...

A newly developed technique uses a Bessel beam to extend the focus of optical coherence microscopy, allowing for a detailed imaging of large sections of the brain. Unlike traditional methods that ...

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 ...

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 ...

A newly developed imaging method blends ultrasound and photoacoustics to capture both tissue structure and blood-vessel function in 3D.

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 ...

Researchers at Polytechnique Montréal have succeeded in mapping blood flow in the brain with unprecedented precision, 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 ...

A new study into how different parts of memory work in the brain has shown that the same brain areas are involved in retrieving different types of information, the findings could redefine how memory ...