Spinal cord injury: molecular mechanisms and therapeutic interventions
X Hu, W Xu, Y Ren, Z Wang, X He, R Huang… - Signal transduction and …, 2023 - nature.com
Spinal cord injury (SCI) remains a severe condition with an extremely high disability rate.
The challenges of SCI repair include its complex pathological mechanisms and the …
The challenges of SCI repair include its complex pathological mechanisms and the …
Decoding movement from electrocorticographic activity: a review
K Volkova, MA Lebedev, A Kaplan… - Frontiers in …, 2019 - frontiersin.org
Electrocorticography (ECoG) holds promise to provide efficient neuroprosthetic solutions for
people suffering from neurological disabilities. This recording technique combines adequate …
people suffering from neurological disabilities. This recording technique combines adequate …
Stabilization of a brain–computer interface via the alignment of low-dimensional spaces of neural activity
The instability of neural recordings can render clinical brain–computer interfaces (BCIs)
uncontrollable. Here, we show that the alignment of low-dimensional neural manifolds (low …
uncontrollable. Here, we show that the alignment of low-dimensional neural manifolds (low …
Plug-and-play control of a brain–computer interface through neural map stabilization
Brain–computer interfaces (BCIs) enable control of assistive devices in individuals with
severe motor impairments. A limitation of BCIs that has hindered real-world adoption is poor …
severe motor impairments. A limitation of BCIs that has hindered real-world adoption is poor …
An adaptive closed-loop ECoG decoder for long-term and stable bimanual control of an exoskeleton by a tetraplegic
A Moly, T Costecalde, F Martel, M Martin… - Journal of Neural …, 2022 - iopscience.iop.org
Objective. The article aims at addressing 2 challenges to step motor brain-computer
interface (BCI) out of laboratories: asynchronous control of complex bimanual effectors with …
interface (BCI) out of laboratories: asynchronous control of complex bimanual effectors with …
Long-term recording reliability of liquid crystal polymer µECoG arrays
Objective. The clinical use of microsignals recorded over broad cortical regions is largely
limited by the chronic reliability of the implanted interfaces. Approach. We evaluated the …
limited by the chronic reliability of the implanted interfaces. Approach. We evaluated the …
Dynamic network modeling and dimensionality reduction for human ECoG activity
Objective. Developing dynamic network models for multisite electrocorticogram (ECoG)
activity can help study neural representations and design neurotechnologies in humans …
activity can help study neural representations and design neurotechnologies in humans …
Bypassing stroke-damaged neural pathways via a neural interface induces targeted cortical adaptation
Regaining the function of an impaired limb is highly desirable in paralyzed individuals. One
possible avenue to achieve this goal is to bridge the interrupted pathway between preserved …
possible avenue to achieve this goal is to bridge the interrupted pathway between preserved …
Encoding of kinetic and kinematic movement parameters in the sensorimotor cortex: A Brain‐Computer Interface perspective
For severely paralyzed people, Brain‐Computer Interfaces (BCI s) can potentially replace
lost motor output and provide a brain‐based control signal for augmentative and alternative …
lost motor output and provide a brain‐based control signal for augmentative and alternative …
Intra-cortical brain-machine interfaces for controlling upper-limb powered muscle and robotic systems in spinal cord injury
Objective Intracortical brain-machine interface (iBMI) is an assistive strategy to restore lost
sensorimotor function by bridging the disrupted neural pathways to reanimate paralyzed …
sensorimotor function by bridging the disrupted neural pathways to reanimate paralyzed …