Human pluripotent stem-cells (HPSCs)—including human embryonic stem-cells and human induced pluripotent stem-cells—are reshaping the landscape of regenerative medicine.1,2 In Parkinson's disease, ...

This study uses a Bayesian framework to characterize latent brain state dynamics associated with memory encoding and performance in children, as measured with functional magnetic resonance imaging.

Researchers used single-nucleus RNA sequencing and chromatin accessibility profiling to map human hippocampal neurogenesis across adulthood, aging, and Alzheimer’s disease. They found that chromatin ...

Much of the common scientific conversation around preserving strong memory and cognition centers on continually learning new subjects and skills. One lay-friendly way of explaining this is that ...

Through a series of experiments supported by the National Institutes of Health, Johns Hopkins Medicine (JHM) researchers say ...

Scientists revealed how the protein can be used to rejuvenates neural stem cells. Scientists have discovered a protein that could help reverse the aging of neural stem cells in the brain. It’s that ...

Behavioral assays linked these molecular disturbances to functional outcomes. Exposed fish displayed increased locomotor activity, heightened anxiety-like behavior, and altered learning performance, ...

Johns Hopkins scientists say they have used 3D imaging, special microscopes and artificial intelligence (AI) programs to construct new maps of mouse brains showing a precise location of more than 10 ...

Demyelinating diseases, including multiple sclerosis (MS) and Charcot-Marie-Tooth (CMT) disease, present a substantial and escalating burden. | Demyelinating diseases, including multiple sclerosis (MS ...

Scientists reveal Tongnanlong zhimingi, a giant dinosaur from the late Jurassic period in China that reached up to ...