Human brain organoid models recreate how glioblastoma interacts with brain and immune cells, revealing hidden signaling that ...

Researchers at the University of Maryland School of Medicine (UMSOM) have identified an innovation in stem cell therapy to regenerate neural cells in the brain after cardiac arrest in an animal model.

Researchers have developed a model that rapidly converts stem cells to brain cells with protein structures characteristic of Parkinson's disease (PD), enabling the study of the condition's unique and ...

Scientists have created a novel organoid model of the human brain that contains astrocytes -- which have been excluded from other models thus far -- to study inflammation in diseases like Alzheimer's.

Two independent research teams have successfully regenerated mouse brain circuits in mice using neurons grown from rat stem cells. Both studies, using interspecies blastocyst complementation to study ...

The human brain can do many amazing things, but self-repair is not one of its repertoire of abilities. Once neurons die—from trauma, stroke, or disease—they rarely grow back. Scientists have been ...

A study led by Cambridge researchers has shed light on how neural stem cell grafts could help restore myelin in the central nervous system. The findings suggest that neural stem cell‐based therapies ...

Stem cells in the brain, called neural stem cells (NSCs), have the ability to proliferate, differentiate, and undergo a process of cell death. Most of the NSCs in our brains exist in a dormant state, ...

Like the seeds of a forest, a few cells in embryos eventually sprout into an ecosystem of brain cells. Neurons get the most recognition for their computing power. But a host of other cells provides ...