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Alignment of multiple glial cell populations in 3D nanofiber scaffolds: Toward the development of multicellular implantable scaffolds for repair of neural injury (2013)
Journal Article
Weightman, A., Jenkins, S., Pickard, M., Chari, D., & Yang, Y. (2014). Alignment of multiple glial cell populations in 3D nanofiber scaffolds: Toward the development of multicellular implantable scaffolds for repair of neural injury. Nanomedicine: Nanotechnology, Biology and Medicine, 10(2), 291-295. https://doi.org/10.1016/j.nano.2013.09.001

Non-neuronal cells of the central nervous system (CNS), termed “neuroglia,” play critical roles in neural regeneration; therefore, replacement of glial populations via implantable nanofabricated devices (providing a growth-permissive niche) is a prom... Read More about Alignment of multiple glial cell populations in 3D nanofiber scaffolds: Toward the development of multicellular implantable scaffolds for repair of neural injury.

Differences in magnetic particle uptake by CNS neuroglial subclasses: implications for neural tissue engineering (2013)
Journal Article
Jenkins, S., Pickard, M., Furness, D., Yiu, H., & Chari, D. (2013). Differences in magnetic particle uptake by CNS neuroglial subclasses: implications for neural tissue engineering. Nanomedicine, 951 -968. https://doi.org/10.2217/nnm.12.145

AIM: To analyze magnetic particle uptake and intracellular processing by the four main non-neuronal subclasses of the CNS: oligodendrocyte precursor cells; oligodendrocytes; astrocytes; and microglia. MATERIALS & METHODS: Magnetic particle uptake and... Read More about Differences in magnetic particle uptake by CNS neuroglial subclasses: implications for neural tissue engineering.