For decades, scientists have worked to peer deeper into the brain. They have wanted to see not just surface activity in the ...

Existing three-dimensional (3D) neuronal culture technology has limitations in brain research due to the difficulty of precisely replicating the brain's complex multilayered structure and the ...

"This 3D bioprinting technology marks a significant advancement in cerebrovascular disease modeling by enabling anatomically accurate and physiologically relevant vessels," says Prof. Kim.

The newly acquired IP, which includes U.S. Patent No. 11,788,057 B2, allows NeOnc to create highly sophisticated, patient-derived 3D brain tumor models. By applying proprietary AI and quantum modeling ...

Meet "Big Brain," the first high-res, 3D digital model of the human brain. It's the result of a huge, 10-year project built from individual scans of 7,400 slices of a single human brain. The ...

Their blood vessel technology addresses critical unmet medical needs ... include a microfluidicorgan-on-a-chip platforms that ...

Kirigami-inspired 3D microelectrodes enable brain activity recording from surface to depth, offering new tools for neuroscience and future medical neurotech.

NeOnc Technologies (NTHI) announced the closing of its acquisition of an intellectual property portfolio featuring artificial intelligence, 3D bioprinting, and quantum modeling technologies.

Brain-computer interface (BCI) technology enables the direct interaction between brain signals and external devices, helping people with neurologic injury communicate with or control real or ...

Discover the future of brain monitoring with a 3D-printable electrode that resembles a single strand of hair. Developed by Penn State University, this innovative device offers reliable EEG signal ...

Cyborg tadpoles could provide new insights into brain development and help to understand diseases that manifest in early development.