Advances in carbon-based microfiber electrodes for neural interfacing

M Hejazi, W Tong, MR Ibbotson, S Prawer… - Frontiers in …, 2021 - frontiersin.org
Neural interfacing devices using penetrating microelectrode arrays have emerged as an
important tool in both neuroscience research and medical applications. These implantable …

Historical perspectives, challenges, and future directions of implantable brain-computer interfaces for sensorimotor applications

S Chandrasekaran, M Fifer, S Bickel, L Osborn… - Bioelectronic …, 2021 - Springer
Almost 100 years ago experiments involving electrically stimulating and recording from the
brain and the body launched new discoveries and debates on how electricity, movement …

Meeting brain–computer interface user performance expectations using a deep neural network decoding framework

MA Schwemmer, ND Skomrock, PB Sederberg… - Nature medicine, 2018 - nature.com
Brain–computer interface (BCI) neurotechnology has the potential to reduce disability
associated with paralysis by translating neural activity into control of assistive devices …

Neuroprosthetic-enabled control of graded arm muscle contraction in a paralyzed human

DA Friedenberg, MA Schwemmer, AJ Landgraf… - Scientific reports, 2017 - nature.com
Neuroprosthetics that combine a brain computer interface (BCI) with functional electrical
stimulation (FES) can restore voluntary control of a patients' own paralyzed limbs. To date …

Chronic recording and electrochemical performance of Utah microelectrode arrays implanted in rat motor cortex

BJ Black, A Kanneganti, A Joshi-Imre… - Journal of …, 2018 - journals.physiology.org
Multisite implantable electrode arrays serve as a tool to understand cortical network
connectivity and plasticity. Furthermore, they enable electrical stimulation to drive plasticity …

Robust and accurate decoding of hand kinematics from entire spiking activity using deep learning

N Ahmadi, TG Constandinou… - Journal of Neural …, 2021 - iopscience.iop.org
Objective. Brain–machine interfaces (BMIs) seek to restore lost motor functions in individuals
with neurological disorders by enabling them to control external devices directly with their …

Emerging Penetrating Neural Electrodes: In Pursuit of Large Scale and Longevity

L Luan, R Yin, H Zhu, C Xie - Annual review of biomedical …, 2023 - annualreviews.org
Penetrating neural electrodes provide a powerful approach to decipher brain circuitry by
allowing for time-resolved electrical detections of individual action potentials. This unique …

Characterization of the neuroinflammatory response to thiol-ene shape memory polymer coated intracortical microelectrodes

AJ Shoffstall, M Ecker, V Danda, A Joshi-Imre, A Stiller… - Micromachines, 2018 - mdpi.com
Thiol-ene based shape memory polymers (SMPs) have been developed for use as
intracortical microelectrode substrates. The unique chemistry provides precise control over …

A characterization of brain-computer interface performance trade-offs using support vector machines and deep neural networks to decode movement intent

ND Skomrock, MA Schwemmer, JE Ting… - Frontiers in …, 2018 - frontiersin.org
Laboratory demonstrations of brain-computer interface (BCI) systems show promise for
reducing disability associated with paralysis by directly linking neural activity to the control of …

Toward a personalized closed-loop stimulation of the visual cortex: Advances and challenges

F Grani, C Soto-Sánchez, A Fimia… - Frontiers in Cellular …, 2022 - frontiersin.org
Current cortical visual prosthesis approaches are primarily unidirectional and do not
consider the feed-back circuits that exist in just about every part of the nervous system …