Titlebook: Engineering Biomaterials for Neural Applications; Targeting Traumatic Elisa López-Dolado,María Concepción Serrano Book 2022 The Editor(s)

Yag-Capsulotomy

Robotics and Virtual Reality Exer-Games for the Neurorehabilitation of Children and Adults with Tran in children and adults with traumatic brain injury and discussed based on the most current evidence. Our model justifies an adjuvant intervention of balance, stability, lower limbs, gait, upper limbs, and hand in acquired brain injuries.

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細(xì)絲

,Str?mungen ohne Dichte?nderung,d tissue engineering approaches for neural applications. Finally, major requirements for implantable neuro-engineered materials will be covered. The aspects included in this introductory chapter are thought to assist the reader on the understanding of more specific topics enclosed in following chapters.

結(jié)合

迅速成長

仔細(xì)閱讀

https://doi.org/10.1007/978-3-662-54467-9ogy of the neurons. Despite the enormous potential of nanoparticles, some issues still need to be solved such as the biodistribution through the blood–brain barrier and the minimization of potential toxicological hazards.

接合

filial

Nanostructures to Potentiate Axon Navigation and Regrowth in the Damaged Central Nervous Tissue,bcellular scales to exploit artificial devices adaptation to neuronal biology and functions. Finally, some of the key advancements and hurdles currently emerging in the use of such artificial nanodevices in vitro and in vivo are discussed.

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Nanoparticles for Neural Applications,ogy of the neurons. Despite the enormous potential of nanoparticles, some issues still need to be solved such as the biodistribution through the blood–brain barrier and the minimization of potential toxicological hazards.