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Literature DB >> 30677307

Rehabilitative devices for a top-down approach.

Giovanni Morone^1,2, Grazia Fernanda Spitoni^3,4, Daniela De Bartolo^2,3, Sheida Ghanbari Ghooshchy^2,3, Fulvia Di Iulio⁵, Stefano Paolucci^1,2, Pierluigi Zoccolotti³, Marco Iosa².

Abstract

INTRODUCTION: In recent years, neurorehabilitation has moved from a 'bottom-up' to a 'top down' approach. This change has also involved the technological devices developed for motor and cognitive rehabilitation. It implies that during a task or during therapeutic exercises, new 'top-down' approaches are being used to stimulate the brain in a more direct way to elicit plasticity-mediated motor re-learning. This is opposed to 'Bottom up' approaches, which act at the physical level and attempt to bring about changes at the level of the central neural system. AREAS COVERED: In the present unsystematic review, we present the most promising innovative technological devices that can effectively support rehabilitation based on a top-down approach, according to the most recent neuroscientific and neurocognitive findings. In particular, we explore if and how the use of new technological devices comprising serious exergames, virtual reality, robots, brain computer interfaces, rhythmic music and biofeedback devices might provide a top-down based approach. EXPERT COMMENTARY: Motor and cognitive systems are strongly harnessed in humans and thus cannot be separated in neurorehabilitation. Recently developed technologies in motor-cognitive rehabilitation might have a greater positive effect than conventional therapies.

Entities: Species

Keywords: Top-down approach; bottom-up approach; cognitive-motor rehabilitation; neurorehabilitation; technological devices

Mesh：

Year: 2019 PMID： 30677307 DOI： 10.1080/17434440.2019.1574567

Source DB: PubMed Journal: Expert Rev Med Devices ISSN： 1743-4440 Impact factor: 3.166

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Cited

11 in total

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Journal: Oxf Med Case Reports Date: 2019-10-31

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3. Developing a Motor Imagery-Based Real-Time Asynchronous Hybrid BCI Controller for a Lower-Limb Exoskeleton.

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4. Hand rehabilitation with sonification techniques in the subacute stage of stroke.

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Review 5. Vibrotactile-Based Rehabilitation on Balance and Gait in Patients with Neurological Diseases: A Systematic Review and Metanalysis.

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6. Abnormal synergistic gait mitigation in acute stroke using an innovative ankle-knee-hip interlimb humanoid robot: a preliminary randomized controlled trial.

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Review 7. Gaming Technology for Pediatric Neurorehabilitation: A Systematic Review.

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Review 8. Overground robotic training effects on walking and secondary health conditions in individuals with spinal cord injury: systematic review.

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9. Italian Version of the Pittsburgh Rehabilitation Participation Scale: Psychometric Analysis of Validity and Reliability.

Authors: Marco Iosa; Giovanni Galeoto; Daniela De Bartolo; Valentina Russo; Ilaria Ruotolo; Grazia Fernanda Spitoni; Irene Ciancarelli; Marco Tramontano; Gabriella Antonucci; Stefano Paolucci; Giovanni Morone
Journal: Brain Sci Date: 2021-05-13

10. Wearable Biofeedback Improves Human-Robot Compliance during Ankle-Foot Exoskeleton-Assisted Gait Training: A Pre-Post Controlled Study in Healthy Participants.

Authors: Cristiana Pinheiro; Joana Figueiredo; Nuno Magalhães; Cristina P Santos
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