A new 3D human brain tissue platform developed by MIT researchers is the first to integrate all major brain cell types, including neurons, glial cells and the vasculature into a single culture. Grown ...

Advancing neurological disorder research requires model systems that more accurately reflect the human brain. 3D cell cultures, such as organoids and spheroids, have emerged as game-changers by better ...

A new 3D human brain tissue platform developed by MIT researchers is the first to integrate all major brain cell types, including neurons, glial cells and the vasculature into a single culture. Grown ...

Advanced 3D cell models recreate the complexity of human tissues, enabling researchers to examine tumor progression, probe neurological disorders, and assess therapeutic candidates. By capturing the ...

In an article published in Advanced Science, the researchers identify how neural stem cells in preterm infants are injured following cerebral hemorrhage. We have managed to create a model where we can ...

A research team led by Professor Dong-Woo Cho (Department of Mechanical Engineering, POSTECH) and Professor Jinah Jang (Departments of Mechanical Engineering, IT Convergence Engineering, Life Sciences ...

The way DNA folds inside the nucleus of brain cells may hold the key to understanding a devastating form of brain cancer called glioblastoma, suggests a new preclinical study from Weill Cornell ...

A large genetic screen has revealed how stem cells transform into brain cells, exposing hundreds of genes that make this ...

New confocal fluorescence imaging minimizes photobleaching and phototoxicity effects, capturing clear images of live 3D culture Industry-leading throughput enables real-time analysis of up to six ...

The discovery could pave the way for new treatments, improved risk prediction, and earlier intervention for brain metastases.