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 …
Enhancing brain plasticity to promote stroke recovery
F Su, W Xu - Frontiers in neurology, 2020 - frontiersin.org
Stroke disturbs both the structural and functional integrity of the brain. The understanding of
stroke pathophysiology has improved greatly in the past several decades. However …
stroke pathophysiology has improved greatly in the past several decades. However …
SSVEP-based brain computer interface controlled soft robotic glove for post-stroke hand function rehabilitation
Soft robotic glove with brain computer interfaces (BCI) control has been used for post-stroke
hand function rehabilitation. Motor imagery (MI) based BCI with robotic aided devices has …
hand function rehabilitation. Motor imagery (MI) based BCI with robotic aided devices has …
Emerging trends in BCI-robotics for motor control and rehabilitation
Neuroengineering research over the last two decades has demonstrated promising
evidence on the use of brain-computer interface (BCI) to enhance functional recovery and …
evidence on the use of brain-computer interface (BCI) to enhance functional recovery and …
Individual finger movement decoding using a novel ultra-high-density electroencephalography-based brain-computer interface system
Brain-Computer Interface (BCI) technology enables users to operate external devices
without physical movement. Electroencephalography (EEG) based BCI systems are being …
without physical movement. Electroencephalography (EEG) based BCI systems are being …
Brain–computer interface training based on brain activity can induce motor recovery in patients with stroke: A meta-analysis
Background Brain–computer interface (BCI) is a procedure involving brain activity in which
neural status is provided to the participants for self-regulation. The current review aims to …
neural status is provided to the participants for self-regulation. The current review aims to …
Leap motion controller video game-based therapy for upper extremity motor recovery in patients with central nervous system diseases. a systematic review with meta …
Leap Motion Controller (LMC) is a virtual reality device that can be used in the rehabilitation
of central nervous system disease (CNSD) motor impairments. This review aimed to …
of central nervous system disease (CNSD) motor impairments. This review aimed to …
Exploring the Use of Brain‐Computer Interfaces in Stroke Neurorehabilitation
S Yang, R Li, H Li, K Xu, Y Shi, Q Wang… - BioMed Research …, 2021 - Wiley Online Library
With the continuous development of artificial intelligence technology,“brain‐computer
interfaces” are gradually entering the field of medical rehabilitation. As a result, brain …
interfaces” are gradually entering the field of medical rehabilitation. As a result, brain …
Challenges and opportunities for the future of brain-computer interface in neurorehabilitation
Brain-computer interfaces (BCIs) provide a unique technological solution to circumvent the
damaged motor system. For neurorehabilitation, the BCI can be used to translate neural …
damaged motor system. For neurorehabilitation, the BCI can be used to translate neural …
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 …