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Biosignal processing and computational methods to enhance sensory motor neuroprosthetics

Authors: --- --- ---
Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889197187 Year: Pages: 228 DOI: 10.3389/978-2-88919-718-7 Language: English
Publisher: Frontiers Media SA
Subject: Neurology --- Science (General)
Added to DOAB on : 2016-04-07 11:22:02
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Abstract

Though there have been many developments in sensory/motor prosthetics, they have not yet reached the level of standard and worldwide use like pacemakers and cochlear implants. One challenging issue in motor prosthetics is the large variety of patient situations, which depending on the type of neurological disorder. To improve neuroprosthetic performance beyond the current limited use of such systems, robust bio-signal processing and model-based control involving actual sensory motor state (with biosignal feedback) would bring about new modalities and applications, and could be a breakthrough toward adaptive neuroprosthetics. Recent advances of Brain Computer Interfaces (BCI) now enable patients to transmit their intention of movement. However, the functionality and controllability of motor prosthetics itself can be further improved to take advantage of BCI interfaces. In this Research Topic we welcome contribution of original research articles, computational and experimental studies, review articles, and methodological advances related to biosignal processing that may enhance the functionality of sensory motor neuroprosthetics. The scope of this topic includes, but is not limited to, studies aimed at enhancing: 1) computational biosignal processing in EMG (Electromyography), EEG (Electroencephalography), and other modalities of biofeedback information;2) the computational method in modeling and control of sensory motor neuroprosthetics;3) the systematic functionality aiming to provide solutions for specific pathological movement disorders;4) human interfaces such as BCI - but in the case of BCI study, manuscripts should be experimental studies which are applied to sensory/motor neuroprosthetics in patients with motor disabilities.

Neural Microelectrodes: Design and Applications

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ISBN: 9783039213191 / 9783039213207 Year: Pages: 378 DOI: 10.3390/books978-3-03921-320-7 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2019-12-09 11:49:15
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Neural electrodes enable the recording and stimulation of bioelectrical activity in the nervous system. This technology provides neuroscientists with the means to probe the functionality of neural circuitry in both health and disease. In addition, neural electrodes can deliver therapeutic stimulation for the relief of debilitating symptoms associated with neurological disorders such as Parkinson’s disease and may serve as the basis for the restoration of sensory perception through peripheral nerve and brain regions after disease or injury. Lastly, microscale neural electrodes recording signals associated with volitional movement in paralyzed individuals can be decoded for controlling external devices and prosthetic limbs or driving the stimulation of paralyzed muscles for functional movements. In spite of the promise of neural electrodes for a range of applications, chronic performance remains a goal for long-term basic science studies, as well as clinical applications. New perspectives and opportunities from fields including tissue biomechanics, materials science, and biological mechanisms of inflammation and neurodegeneration are critical to advances in neural electrode technology. This Special Issue will address the state-of-the-art knowledge and emerging opportunities for the development and demonstration of advanced neural electrodes.

Keywords

neural interface --- silicon carbide --- robust microelectrode --- microelectrode array --- liquid crystal elastomer --- neuronal recordings --- neural interfacing --- micro-electromechanical systems (MEMS) technologies --- microelectromechanical systems --- neuroscientific research --- magnetic coupling --- freely-behaving --- microelectrodes --- in vivo electrophysiology --- neural interfaces --- enteric nervous system --- conscious recording --- electrode implantation --- intracranial electrodes --- foreign body reaction --- electrode degradation --- glial encapsulation --- electrode array --- microelectrodes --- neural recording --- silicon probe --- three-dimensional --- electroless plating --- intracortical implant --- microelectrodes --- stiffness --- immunohistochemistry --- immune response --- neural interface response --- neural interface --- micromachine --- neuroscience --- biocompatibility --- training --- education --- diversity --- bias --- BRAIN Initiative --- multi-disciplinary --- micro-electromechanical systems (MEMS) --- n/a --- silicon neural probes --- LED chip --- thermoresistance --- temperature monitoring --- optogenetics --- microfluidic device --- chronic implantation --- gene modification --- neural recording --- neural amplifier --- microelectrode array --- intracortical --- sensor interface --- windowed integration sampling --- mixed-signal feedback --- multiplexing --- amorphous silicon carbide --- neural stimulation and recording --- insertion force --- microelectrodes --- neural interfaces --- intracortical --- microelectrodes --- shape-memory-polymer --- electrophysiology --- electrode --- artifact --- electrophysiology --- electrochemistry --- fast-scan cyclic voltammetry (FSCV) --- neurotechnology --- neural interface --- neuromodulation --- neuroprosthetics --- brain-machine interfaces --- intracortical implant --- microelectrodes --- softening --- immunohistochemistry --- immune response --- neural interface --- shape memory polymer --- deep brain stimulation --- fast scan cyclic voltammetry --- dopamine --- glassy carbon electrode --- magnetic resonance imaging --- system-on-chip --- neuromodulation --- bidirectional --- closed-loop --- sciatic nerve --- vagus nerve --- precision medicine --- neural probe --- intracortical --- microelectrodes --- bio-inspired --- polymer nanocomposite --- cellulose nanocrystals --- photolithography --- Parylene C --- impedance --- Utah electrode arrays --- electrode–tissue interface --- peripheral nerves --- wireless --- implantable --- microstimulators --- neuromodulation --- peripheral nerve stimulation --- neural prostheses --- microelectrode --- neural interfaces --- dextran --- neural probe --- microfabrication --- foreign body reaction --- immunohistochemistry --- polymer --- chronic --- electrocorticography --- ECoG --- micro-electrocorticography --- µECoG --- neural electrode array --- neural interfaces --- electrophysiology --- brain–computer interface --- in vivo imaging --- tissue response --- graphene --- n/a

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