Nanotechnology enters into the realm of basic biological units by its ability to functionally integrate with bio-systems. In recent years we reached an increased interest and improved understanding of such interactions with biological systems at a subcellular level. This latter feature can be understood and engineered with a high degree of specificity. Here, we review current experimental models that promote the development of novel bio-nanotechnology tools to help repair damaged nervous system tissues.
Nanomaterial/neuronal hybrid system for functional recovery of the CNS / Giugliano, M.; Prato, M.; Ballerini, L.. - In: DRUG DISCOVERY TODAY. DISEASE MODELS. - ISSN 1740-6757. - 5:1(2008), pp. 37-43. [10.1016/j.ddmod.2008.07.004]
Nanomaterial/neuronal hybrid system for functional recovery of the CNS
Giugliano, M.;Ballerini, L.
2008-01-01
Abstract
Nanotechnology enters into the realm of basic biological units by its ability to functionally integrate with bio-systems. In recent years we reached an increased interest and improved understanding of such interactions with biological systems at a subcellular level. This latter feature can be understood and engineered with a high degree of specificity. Here, we review current experimental models that promote the development of novel bio-nanotechnology tools to help repair damaged nervous system tissues.| File | Dimensione | Formato | |
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