Brain–computer interface-controlled exoskeletons in clinical neurorehabilitation: ready or not?
A Colucci, M Vermehren, A Cavallo… - … and neural repair, 2022 - journals.sagepub.com
The development of brain–computer interface-controlled exoskeletons promises new
treatment strategies for neurorehabilitation after stroke or spinal cord injury. By converting …
treatment strategies for neurorehabilitation after stroke or spinal cord injury. By converting …
Poststroke motor, cognitive and speech rehabilitation with brain–computer interface: a perspective review
Brain–computer interface (BCI) technology translates brain activity into meaningful
commands to establish a direct connection between the brain and the external world …
commands to establish a direct connection between the brain and the external world …
[HTML][HTML] Commercial device-based hand rehabilitation systems for stroke patients: State of the art and future prospects
Various hand rehabilitation systems have recently been developed for stroke patients,
particularly commercial devices. Articles from 10 electronic databases from 2010 to 2022 …
particularly commercial devices. Articles from 10 electronic databases from 2010 to 2022 …
[HTML][HTML] Exploring high-density corticomuscular networks after stroke to enable a hybrid Brain-Computer Interface for hand motor rehabilitation
Abstract Background Brain-Computer Interfaces (BCI) promote upper limb recovery in stroke
patients reinforcing motor related brain activity (from electroencephalogaphy, EEG). Hybrid …
patients reinforcing motor related brain activity (from electroencephalogaphy, EEG). Hybrid …
[HTML][HTML] Brain-machine interface-based training for improving upper extremity function after stroke: A meta-analysis of randomized controlled trials
Y Xie, Y Yang, H Jiang, XY Duan, L Gu… - Frontiers in …, 2022 - frontiersin.org
Background Upper extremity dysfunction after stroke is an urgent clinical problem that
greatly affects patients' daily life and reduces their quality of life. As an emerging …
greatly affects patients' daily life and reduces their quality of life. As an emerging …
[HTML][HTML] Sensorimotor rhythm-brain computer interface with audio-cue, motor observation and multisensory feedback for upper-limb stroke rehabilitation: a controlled …
X Li, L Wang, S Miao, Z Yue, Z Tang, L Su… - Frontiers in …, 2022 - frontiersin.org
Several studies have shown the positive clinical effect of brain computer interface (BCI)
training for stroke rehabilitation. This study investigated the efficacy of the sensorimotor …
training for stroke rehabilitation. This study investigated the efficacy of the sensorimotor …
[HTML][HTML] Implementing performance accommodation mechanisms in online BCI for stroke rehabilitation: a study on perceived control and frustration
Brain–computer interfaces (BCIs) are successfully used for stroke rehabilitation, but the
training is repetitive and patients can lose the motivation to train. Moreover, controlling the …
training is repetitive and patients can lose the motivation to train. Moreover, controlling the …
Efficacy of brain-computer interfaces on upper extremity motor function rehabilitation after stroke: a systematic review and meta-analysis
M Zhang, F Zhu, F Jia, Y Wu, B Wang… - …, 2024 - content.iospress.com
BACKGROUND: The recovery of upper limb function is crucial to the daily life activities of
stroke patients. Brain-computer interface technology may have potential benefits in treating …
stroke patients. Brain-computer interface technology may have potential benefits in treating …
Neural interface-based motor neuroprosthesis in post-stroke upper limb neurorehabilitation: An individual patient data meta-analysis.
Objective To determine the efficacy of neural interface-, including brain-computer interface
(BCI), based neurorehabilitation through conventional and individual patient data (IPD) meta …
(BCI), based neurorehabilitation through conventional and individual patient data (IPD) meta …
Is there a continuum of agentive awareness across physical and mental actions? The case of quasi-movements
While humans routinely distinguish between physical and mental actions, overt movements
(OM) and kinesthetically imagined movements (IM) are often viewed as forming a continuum …
(OM) and kinesthetically imagined movements (IM) are often viewed as forming a continuum …