Translational opportunities and challenges of invasive electrodes for neural interfaces
Invasive brain–machine interfaces can restore motor, sensory and cognitive functions.
However, their clinical adoption has been hindered by the surgical risk of implantation and …
However, their clinical adoption has been hindered by the surgical risk of implantation and …
Implantable intracortical microelectrodes: reviewing the present with a focus on the future
Y Wang, X Yang, X Zhang, Y Wang… - Microsystems & …, 2023 - nature.com
Implantable intracortical microelectrodes can record a neuron's rapidly changing action
potentials (spikes). In vivo neural activity recording methods often have either high temporal …
potentials (spikes). In vivo neural activity recording methods often have either high temporal …
[HTML][HTML] An integrated brain-machine interface platform with thousands of channels
E Musk - Journal of medical Internet research, 2019 - jmir.org
Brain-machine interfaces hold promise for the restoration of sensory and motor function and
the treatment of neurological disorders, but clinical brain-machine interfaces have not yet …
the treatment of neurological disorders, but clinical brain-machine interfaces have not yet …
Ultraflexible neural electrodes for long-lasting intracortical recording
Implanted electrodes provide one of the most important neurotechniques for fundamental
and translational neurosciences by permitting time-resolved electrical detection of individual …
and translational neurosciences by permitting time-resolved electrical detection of individual …
Conductive polymer‐based bioelectronic platforms toward sustainable and biointegrated devices: a journey from skin to brain across human body interfaces
O Bettucci, GM Matrone… - Advanced Materials …, 2022 - Wiley Online Library
Over the last few years, organic bioelectronics has experienced an exponential growth with
applications encompassing platforms for tissue engineering, drug delivery systems …
applications encompassing platforms for tissue engineering, drug delivery systems …
Neural tissue-microelectrode interaction: Brain micromotion, electrical impedance, and flexible microelectrode insertion
Insertion of a microelectrode into the brain to record/stimulate neurons damages neural
tissue and blood vessels and initiates the brain's wound healing response. Due to the large …
tissue and blood vessels and initiates the brain's wound healing response. Due to the large …
[HTML][HTML] Organic microelectrode arrays for bioelectronic applications
Microelectrode arrays (MEAs) are devices that gather multiple microscopic electrodes in a
small area and are used to electrically record and/or stimulate the biological activity of cells …
small area and are used to electrically record and/or stimulate the biological activity of cells …
Bioinspired materials for in vivo bioelectronic neural interfaces
The success of in vivo neural interfaces relies on their long-term stability and large scale in
interrogating and manipulating neural activity after implantation. Conventional neural …
interrogating and manipulating neural activity after implantation. Conventional neural …
How is flexible electronics advancing neuroscience research?
Innovative neurotechnology must be leveraged to experimentally answer the multitude of
pressing questions in modern neuroscience. Driven by the desire to address the existing …
pressing questions in modern neuroscience. Driven by the desire to address the existing …
Switchless multiplexing of graphene active sensor arrays for brain mapping
R Garcia-Cortadella, N Schafer… - Nano …, 2020 - ACS Publications
Sensor arrays used to detect electrophysiological signals from the brain are paramount in
neuroscience. However, the number of sensors that can be interfaced with macroscopic data …
neuroscience. However, the number of sensors that can be interfaced with macroscopic data …