Rosaria De Luca scite author profile

BackgroundMany studies have demonstrated the usefulness of repetitive task practice by using robotic-assisted gait training (RAGT) devices, including Lokomat, for the treatment of lower limb paresis. Virtual reality (VR) has proved to be a valuable tool to improve neurorehabilitation training. The aim of our pilot randomized clinical trial was to understand the neurophysiological basis of motor function recovery induced by the association between RAGT (by using Lokomat device) and VR (an animated avatar in a 2D VR) by studying electroencephalographic (EEG) oscillations.MethodsTwenty-four patients suffering from a first unilateral ischemic stroke in the chronic phase were randomized into two groups. One group performed 40 sessions of Lokomat with VR (RAGT + VR), whereas the other group underwent Lokomat without VR (RAGT-VR). The outcomes (clinical, kinematic, and EEG) were measured before and after the robotic intervention.ResultsAs compared to the RAGT-VR group, all the patients of the RAGT + VR group improved in the Rivermead Mobility Index and Tinetti Performance Oriented Mobility Assessment. Moreover, they showed stronger event-related spectral perturbations in the high-γ and β bands and larger fronto-central cortical activations in the affected hemisphere.ConclusionsThe robotic-based rehabilitation combined with VR in patients with chronic hemiparesis induced an improvement in gait and balance. EEG data suggest that the use of VR may entrain several brain areas (probably encompassing the mirror neuron system) involved in motor planning and learning, thus leading to an enhanced motor performance.Trial registrationRetrospectively registered in Clinical Trials on 21-11-2016, n.NCT02971371.

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Virtual reality in multiple sclerosis rehabilitation: A review on cognitive and motor outcomes

Maggio

Russo

Cuzzola

et al. 2019

Journal of Clinical Neuroscience

154

103

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Effects of virtual reality-based training with BTs-Nirvana on functional recovery in stroke patients: preliminary considerations

Luca

Russo

Naro

et al. 2018

International Journal of Neuroscience

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Virtual Reality and Cognitive Rehabilitation in People With Stroke: An Overview

et al. 2019

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Objective: This review evaluates the use of virtual reality (VR) tools in cognitive rehabilitation of stroke-affected individuals. Methods: Studies performed between 2010 and 2017 that fulfilled inclusion criteria were selected from PubMed, Scopus, Cochrane, and Web of Sciences databases. The search combined the terms “VR,” “rehabilitation,” and “stroke.” Results: Stroke patients experienced significant improvement in many cognitive domains (such as executive and visual–spatial abilities and speech, attention, and memory skills) after the use of VR training. Conclusions: Rehabilitation using new VR tools could positively affect stroke patient cognitive outcomes by boosting motivation and participation.

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Robotic gait training in multiple sclerosis rehabilitation: Can virtual reality make the difference? Findings from a randomized controlled trial

Calabrò¹,

Russo²,

Naro

et al. 2017

Journal of the Neurological Sciences

103

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Rosaria De Luca

The role of virtual reality in improving motor performance as revealed by EEG: a randomized clinical trial

Virtual reality in multiple sclerosis rehabilitation: A review on cognitive and motor outcomes

Effects of virtual reality-based training with BTs-Nirvana on functional recovery in stroke patients: preliminary considerations

Virtual Reality and Cognitive Rehabilitation in People With Stroke: An Overview

Robotic gait training in multiple sclerosis rehabilitation: Can virtual reality make the difference? Findings from a randomized controlled trial

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