Astrocytes are the largest and most prevalent type of glial cell in the central nervous system. Astrocytes contribute to formation of the blood–brain barrier, participate in the maintenance of ...

However, there is no bibliometric analysis in this research field. This study aims to provide a comprehensive overview of the knowledge structure and research hotspots regarding the role of astrocytes ...

The current human tissue-based study provides convincing evidence correlating hippocampal expressions of RNA guanine-rich G-quadruplexes with aging and with Alzheimer's Disease presence and severity.

Their cross-species examination of primate and rodent spinal cords revealed new insights into the behaviors of ependymal and astrocyte cells following SCI, highlighting their dynamic roles in ...

A new study reveals that while ependymal cells in the spinal cord show minimal repair potential, astrocytes can transdifferentiate into oligodendrocytes, aiding in remyelination. Researchers also ...

For over a century after their discovery astrocytes were regarded merely as cells located among other brain cells to hold and give support to neurons. Astrocytes activation, “astrocytosis” or A1 ...