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

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,Str?mungen mit Dichte?nderung (Gasdynamik),described for optimization. Furthermore, charge capacity is considered only in capacitor-like systems, without taking into account that intercalation materials offer an internal faradaic charge delivery advantage, with substantially less risk for biological systems. This chapter describes new materi

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,Str?mungen ohne Dichte?nderung,romagnetic order are first reviewed. From those principles, several generic designs of magnetoelastic sensors are discussed and, with special detail, that corresponding to resonant sensors. Finally, exemplary biomedical applications of magnetoelastic sensors to the measurement of the mechanical stre

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https://doi.org/10.1007/978-3-662-31535-4keletons that are revolutionizing rehabilitation in patients who suffer any kind of neurological, neuromuscular, or orthopedical disorder. In this context, different materials and manufacturing design processes are being under investigation with the aim of enhancing the recovery outcomes and the lev

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https://doi.org/10.1007/978-3-7091-4210-3 Beata María Ana (Spain). Conventional approaches with robotics, virtual reality, and exer-game-based methodologies are described for their application in children and adults with traumatic brain injury and discussed based on the most current evidence. Our model justifies an adjuvant intervention of

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