Add to ORKGThe recording of neural signals with microelectrodes that are implanted into the cortex of the brain is potentially useful for a range of clinical applications. However, the widespread use of such neural interfaces has so far been stifled because existing intracortical electrode systems rarely allow for consistent long-term recording of neural activity. This limitation is usually attributed to scar formation and neuron death near the surface of the implanted electrode. It has been proposed that the mechanical property mismatch between existing electrode materials and the brain tissue is a significant contributor to these events. To alleviate this problem, we utilized the architecture of the sea cucumber dermis as a blueprint to engineer a n...
Traditional neuronal interfaces utilize metallic electrodes which in recent years have reached a pla...
The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to adv...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...
Cortical microelectrodes allow electrical contacts with neural cells and show promise as electrical ...
The treatment of disorders of the nervous system poses a major clinical challenge. Development of ne...
In the last decades, the clinical applications of neural devices have increased exponentially. Accom...
Chronic neural interfaces that are able to record or stimulate neurons in the CNS are valuable instr...
The recent development of neural prosthetic technology has demonstrated a therapeutic potential for ...
Intracortical microelectrodes (IME) are neural devices that initially were designed to function as n...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...
Mechanical, materials, and biological causes of intracortical probe failure have hampered their util...
Brain computer interfaces (BCI) establish communication between the brain and external devices by re...
The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to adv...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...
Finding the most appropriate technology for building electrodes to be used for long term implants in...
Traditional neuronal interfaces utilize metallic electrodes which in recent years have reached a pla...
The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to adv...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...
Cortical microelectrodes allow electrical contacts with neural cells and show promise as electrical ...
The treatment of disorders of the nervous system poses a major clinical challenge. Development of ne...
In the last decades, the clinical applications of neural devices have increased exponentially. Accom...
Chronic neural interfaces that are able to record or stimulate neurons in the CNS are valuable instr...
The recent development of neural prosthetic technology has demonstrated a therapeutic potential for ...
Intracortical microelectrodes (IME) are neural devices that initially were designed to function as n...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...
Mechanical, materials, and biological causes of intracortical probe failure have hampered their util...
Brain computer interfaces (BCI) establish communication between the brain and external devices by re...
The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to adv...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...
Finding the most appropriate technology for building electrodes to be used for long term implants in...
Traditional neuronal interfaces utilize metallic electrodes which in recent years have reached a pla...
The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to adv...
In neuroscience, the acquisition of neural signals from the brain cortex is crucial to analyze brain...