Why do our mental images stay sharp even when we are moving fast? A team of neuroscientists led by Professor Maximilian Jösch at the Institute of Science and Technology Austria (ISTA) has identified a ...

allowing us to map functional brain activity by dynamically imaging cerebral blood volume.” The researchers began by defining the parameters required to build a human brain-scale MPI system. Such a ...

In contrast, functional magnetic resonance imaging (fMRI) can map activity throughout the brain, but lacks the resolution to dissect individual circuits. In between lie a range of microscopic ...

Conversely, mid-infrared photoacoustic microscopy (MIR-PAM) allows for label-free imaging preserving cell integrity. Its reliance on longer wavelengths limits spatial resolution, however, making it ...

"With this grant and the earlier R01, we are planning to revolutionize neonatal brain imaging management." The grant, "3-D Neonatal Photoacoustic Tomography (3-D-NPAT) to Detect Hypoxic-Ischemic Brain ...

Conversely, mid-infrared photoacoustic microscopy (MIR-PAM) allows for label-free imaging, preserving cell integrity. Yet, its reliance on longer wavelengths limits spatial resolution, making it ...

A microscope developed by a team at Tsinghua University in Beijing, China, has allowed high-resolution imaging of near-surface brain cortical neural network structure and activity of animals in a ...

Conversely, mid-infrared photoacoustic microscopy (MIR-PAM) allows for label-free imaging, preserving cell integrity. Yet, its reliance on longer wavelengths limits spatial resolution, making it ...

Conversely, mid-infrared photoacoustic microscopy (MIR-PAM) allows for label-free imaging, preserving cell integrity. Yet, its reliance on longer wavelengths limits spatial resolution, making it ...