The regenerative potential of glial progenitor cells and reactive astrocytes in CNS injuries
Neuroscience & Biobehavioral Reviews, 2022•Elsevier
Cell therapeutic approaches focusing on the regeneration of damaged tissue have been a
popular topic among researchers in recent years. In particular, self-repair scarring from the
central nervous system (CNS) can significantly complicate the treatment of an injured
patient. In CNS regeneration schemes, either glial progenitor cells or reactive glial cells
have key roles to play. In this review, the contribution and underlying mechanisms of these
progenitor/reactive glial cells during CNS regeneration are discussed, as well as their role in …
popular topic among researchers in recent years. In particular, self-repair scarring from the
central nervous system (CNS) can significantly complicate the treatment of an injured
patient. In CNS regeneration schemes, either glial progenitor cells or reactive glial cells
have key roles to play. In this review, the contribution and underlying mechanisms of these
progenitor/reactive glial cells during CNS regeneration are discussed, as well as their role in …
Abstract
Cell therapeutic approaches focusing on the regeneration of damaged tissue have been a popular topic among researchers in recent years. In particular, self-repair scarring from the central nervous system (CNS) can significantly complicate the treatment of an injured patient. In CNS regeneration schemes, either glial progenitor cells or reactive glial cells have key roles to play. In this review, the contribution and underlying mechanisms of these progenitor/reactive glial cells during CNS regeneration are discussed, as well as their role in CNS-related diseases.
Elsevier
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