Flexible polymer electrodes for stable prosthetic visual perception in mice
C Orlemann, C Boehler, RN Kooijmans… - Advanced …, 2024 - Wiley Online Library
Brain interfaces that can stimulate neurons, cause minimal damage, and work for a long time
will be central for future neuroprosthetics. Here, the long‐term performance of highly flexible …
will be central for future neuroprosthetics. Here, the long‐term performance of highly flexible …
[HTML][HTML] Comparison of electrical microstimulation artifact removal methods for high-channel-count prostheses
F Wang, X Chen, PR Roelfsema - Journal of Neuroscience Methods, 2024 - Elsevier
Background Neuroprostheses are used to electrically stimulate the brain, modulate neural
activity and restore sensory and motor function following injury or disease, such as …
activity and restore sensory and motor function following injury or disease, such as …
A Spatially Diverse 2TX-3RX Galvanic-Coupled Transdural Telemetry for Tether-Less Distributed Brain-Computer Interfaces
A near-field galvanic coupled transdural telemetry ASICs for intracortical brain-computer
interfaces is presented. The proposed design features a two channels transmitter and three …
interfaces is presented. The proposed design features a two channels transmitter and three …
Quantifying physical degradation alongside recording and stimulation performance of 980 intracortical microelectrodes chronically implanted in three humans for 956 …
Methods: Using scanning electron microscopy (SEM), we imaged 980 microelectrodes from
Neuroport arrays chronically implanted in the cortex of three people with tetraplegia for 956 …
Neuroport arrays chronically implanted in the cortex of three people with tetraplegia for 956 …
6.2 An Ultrasound-Powering TX with a Global Charge-Redistribution Adiabatic Drive Achieving 69% Power Reduction and 53° Maximum Beam Steering Angle for …
State-of-the-art intracortical neural recording and stimulation systems rely on subdural
implants tethered to a cranial implant which itself has a wireless power and data link to the …
implants tethered to a cranial implant which itself has a wireless power and data link to the …
Optogenetic stimulation of a cortical biohybrid implant guides goal directed behavior
J Brown, KM Zappitelli, PM Dawson, E Yoon… - bioRxiv, 2024 - biorxiv.org
Brain-computer interfaces (BCIs) hold exciting therapeutic potential, but tissue damage
caused by probe insertion limits channel count. Biohybrid devices, in which the cell-device …
caused by probe insertion limits channel count. Biohybrid devices, in which the cell-device …
Optimal placement of high-channel visual prostheses in human retinotopic visual cortex
Objective Recent strides in neurotechnology show potential to restore vision in individuals
afflicted with blindness due to early visual pathway damage. As neuroprostheses mature …
afflicted with blindness due to early visual pathway damage. As neuroprostheses mature …
[HTML][HTML] Инвазивные нейроинтерфейсы–области применения. Литературный обзор
ЕВ Бриль, АИ Шадеркина… - Журнал …, 2024 - cyberleninka.ru
Введение. Нейроимпланты–это устройства, взаимодействующие с нервной системой
для записи, стимуляции или замещения нейронной активности. Нейроимпланты …
для записи, стимуляции или замещения нейронной активности. Нейроимпланты …
[HTML][HTML] The potential to restore vision with Neuralink's “Blindsight” neural interface technology
A biocompatible, safe, and reliable, effective human brain-to-computer neural interface has
long been a subject of science fiction. Recently, however, Neuralink (a neurotechnology …
long been a subject of science fiction. Recently, however, Neuralink (a neurotechnology …
A Local De-insulation Method and Its Application in Neural Microneedle Array
W Pei, X Zhao, C Wei, D Zhu, X Yang, G Han, J Ning… - 2024 - researchsquare.com
Silicon-based neural microneedle arrays, such as the Utah Array, have demonstrated
excellent performance in chronic recordings from the cerebral cortex. Unlike planar thin-film …
excellent performance in chronic recordings from the cerebral cortex. Unlike planar thin-film …