Integración de EEG y Realidad Virtual en la Rehabilitación Basada en Movimiento Imaginario de la Mano

P Riveros-Cortés; Danilo Alejandro Garcia-Orjuela; Julian  Colorado; M Molinas; Catalina Alvarado Rojas

Integración de EEG y Realidad Virtual en la Rehabilitación Basada en Movimiento Imaginario de la Mano

P Riveros-Cortés
, Danilo Alejandro Garcia-Orjuela
, Julian Colorado
, M Molinas
, Catalina Alvarado Rojas

Department of Electronic Engineering

Universidad Nacional de Colombia

Research output: Contribution to conference › Poster › peer-review

Abstract

Stroke affects over 17 million people worldwide each year, leaving around 6.5 million deaths and a large proportion of survivors with motor impairment of the upper limb (~55–75%). Recovery of fine-motor skills of the hand is essential for regaining independence of the patient. After a stroke, disrupted brain connectivity (motor-premotor-basal ganglia network) reduces excitability and coordination. Rehabilitation aims to drive cortical reorganization and reactivation of spared networks.
Motor imagery (MI) and action observation (AO) activate similar cortical networks to the actual movement, engaging the mirror-neuron system and enhancing corticospinal excitability. Promoting neuroplasticity through MI and AO is therefore a key target in stroke rehabilitation, as it supports recovery of motor pathways through multisensory feedback and mental practice.

Original language	English
Pages	1
Number of pages	2
State	Published - 14 Nov 2025
Event	V Latin American Workshop on Computational Neuroscience. LAWCN’25 - Argentina, La Plata, Argentina Duration: 12 Nov 2025 → 14 Nov 2025 https://lawcn25.exactas.unlp.edu.ar

Conference

Conference	V Latin American Workshop on Computational Neuroscience. LAWCN’25
Country/Territory	Argentina
City	La Plata
Period	12/11/25 → 14/11/25
Internet address	https://lawcn25.exactas.unlp.edu.ar

Cite this

@conference{7136fee14bbb40c2b0c80ccfaf4bb05c,

title = "Integraci{\'o}n de EEG y Realidad Virtual en la Rehabilitaci{\'o}n Basada en Movimiento Imaginario de la Mano",

abstract = "Stroke affects over 17 million people worldwide each year, leaving around 6.5 million deaths and a large proportion of survivors with motor impairment of the upper limb (\textasciitilde{}55–75\%). Recovery of fine-motor skills of the hand is essential for regaining independence of the patient. After a stroke, disrupted brain connectivity (motor-premotor-basal ganglia network) reduces excitability and coordination. Rehabilitation aims to drive cortical reorganization and reactivation of spared networks. Motor imagery (MI) and action observation (AO) activate similar cortical networks to the actual movement, engaging the mirror-neuron system and enhancing corticospinal excitability. Promoting neuroplasticity through MI and AO is therefore a key target in stroke rehabilitation, as it supports recovery of motor pathways through multisensory feedback and mental practice.",

author = "P Riveros-Cort{\'e}s and Garcia-Orjuela, \{Danilo Alejandro\} and Julian Colorado and M Molinas and \{Alvarado Rojas\}, Catalina",

year = "2025",

month = nov,

day = "14",

language = "English",

pages = "1",

note = "V Latin American Workshop on Computational Neuroscience. LAWCN{\textquoteright}25 ; Conference date: 12-11-2025 Through 14-11-2025",

url = "https://lawcn25.exactas.unlp.edu.ar",

}

Integración de EEG y Realidad Virtual en la Rehabilitación Basada en Movimiento Imaginario de la Mano. / Riveros-Cortés, P; Garcia-Orjuela, Danilo Alejandro; Colorado, Julian et al.
2025. 1 Poster session presented at V Latin American Workshop on Computational Neuroscience. LAWCN’25, La Plata, Argentina.

Research output: Contribution to conference › Poster › peer-review

TY - CONF

T1 - Integración de EEG y Realidad Virtual en la Rehabilitación Basada en Movimiento Imaginario de la Mano

AU - Riveros-Cortés, P

AU - Garcia-Orjuela, Danilo Alejandro

AU - Colorado, Julian

AU - Molinas, M

AU - Alvarado Rojas, Catalina

PY - 2025/11/14

Y1 - 2025/11/14

N2 - Stroke affects over 17 million people worldwide each year, leaving around 6.5 million deaths and a large proportion of survivors with motor impairment of the upper limb (~55–75%). Recovery of fine-motor skills of the hand is essential for regaining independence of the patient. After a stroke, disrupted brain connectivity (motor-premotor-basal ganglia network) reduces excitability and coordination. Rehabilitation aims to drive cortical reorganization and reactivation of spared networks. Motor imagery (MI) and action observation (AO) activate similar cortical networks to the actual movement, engaging the mirror-neuron system and enhancing corticospinal excitability. Promoting neuroplasticity through MI and AO is therefore a key target in stroke rehabilitation, as it supports recovery of motor pathways through multisensory feedback and mental practice.

AB - Stroke affects over 17 million people worldwide each year, leaving around 6.5 million deaths and a large proportion of survivors with motor impairment of the upper limb (~55–75%). Recovery of fine-motor skills of the hand is essential for regaining independence of the patient. After a stroke, disrupted brain connectivity (motor-premotor-basal ganglia network) reduces excitability and coordination. Rehabilitation aims to drive cortical reorganization and reactivation of spared networks. Motor imagery (MI) and action observation (AO) activate similar cortical networks to the actual movement, engaging the mirror-neuron system and enhancing corticospinal excitability. Promoting neuroplasticity through MI and AO is therefore a key target in stroke rehabilitation, as it supports recovery of motor pathways through multisensory feedback and mental practice.

M3 - Poster

SP - 1

T2 - V Latin American Workshop on Computational Neuroscience. LAWCN’25

Y2 - 12 November 2025 through 14 November 2025

ER -

Integración de EEG y Realidad Virtual en la Rehabilitación Basada en Movimiento Imaginario de la Mano

Abstract

Conference

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