FERRO, Marc D, Christopher M PROCTOR, Alexander GONZALEZ, Sriram JAYABAL, Eric ZHAO, Maxwell GAGNON, Andrea SLEZIA, Jolien PAS, Gerwin DIJK, Mary J DONAHUE, Adam WILLIAMSON, Jennifer RAYMOND, George G MALLIARAS, Lisa GIOCOMO a Nicholas A MELOSH. NeuroRoots, a bio-inspired, seamless brain machine interface for long-term recording in delicate brain regions. AIP Advances. MELVILLE: AMER INST PHYSICS, 2024, roč. 14, č. 8, s. 1-12. ISSN 2158-3226. Dostupné z: https://dx.doi.org/10.1063/5.0216979. |
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@article{2423141, author = {Ferro, Marc D and Proctor, Christopher M and Gonzalez, Alexander and Jayabal, Sriram and Zhao, Eric and Gagnon, Maxwell and Slezia, Andrea and Pas, Jolien and Dijk, Gerwin and Donahue, Mary J and Williamson, Adam and Raymond, Jennifer and Malliaras, George G and Giocomo, Lisa and Melosh, Nicholas A}, article_location = {MELVILLE}, article_number = {8}, doi = {http://dx.doi.org/10.1063/5.0216979}, keywords = {NeuroRoots; brain machine interface; delicate brain regions}, language = {eng}, issn = {2158-3226}, journal = {AIP Advances}, title = {NeuroRoots, a bio-inspired, seamless brain machine interface for long-term recording in delicate brain regions}, url = {https://pubs.aip.org/aip/adv/article/14/8/085109/3307242/NeuroRoots-a-bio-inspired-seamless-brain-machine}, volume = {14}, year = {2024} }
TY - JOUR ID - 2423141 AU - Ferro, Marc D - Proctor, Christopher M - Gonzalez, Alexander - Jayabal, Sriram - Zhao, Eric - Gagnon, Maxwell - Slezia, Andrea - Pas, Jolien - Dijk, Gerwin - Donahue, Mary J - Williamson, Adam - Raymond, Jennifer - Malliaras, George G - Giocomo, Lisa - Melosh, Nicholas A PY - 2024 TI - NeuroRoots, a bio-inspired, seamless brain machine interface for long-term recording in delicate brain regions JF - AIP Advances VL - 14 IS - 8 SP - 1-12 EP - 1-12 PB - AMER INST PHYSICS SN - 21583226 KW - NeuroRoots KW - brain machine interface KW - delicate brain regions UR - https://pubs.aip.org/aip/adv/article/14/8/085109/3307242/NeuroRoots-a-bio-inspired-seamless-brain-machine N2 - Scalable electronic brain implants with long-term stability and low biological perturbation are crucial technologies for high-quality brain-machine interfaces that can seamlessly access delicate and hard-to-reach regions of the brain. Here, we created "NeuroRoots," a biomimetic multi-channel implant with similar dimensions (7 mu m wide and 1.5 mu m thick), mechanical compliance, and spatial distribution as axons in the brain. Unlike planar shank implants, these devices consist of a number of individual electrode "roots," each tendril independent from the other. A simple microscale delivery approach based on commercially available apparatus minimally perturbs existing neural architectures during surgery. NeuroRoots enables high density single unit recording from the cerebellum in vitro and in vivo. NeuroRoots also reliably recorded action potentials in various brain regions for at least 7 weeks during behavioral experiments in freely-moving rats, without adjustment of electrode position. This minimally invasive axon-like implant design is an important step toward improving the integration and stability of brain-machine interfacing. ER -
FERRO, Marc D, Christopher M PROCTOR, Alexander GONZALEZ, Sriram JAYABAL, Eric ZHAO, Maxwell GAGNON, Andrea SLEZIA, Jolien PAS, Gerwin DIJK, Mary J DONAHUE, Adam WILLIAMSON, Jennifer RAYMOND, George G MALLIARAS, Lisa GIOCOMO a Nicholas A MELOSH. NeuroRoots, a bio-inspired, seamless brain machine interface for long-term recording in delicate brain regions. \textit{AIP Advances}. MELVILLE: AMER INST PHYSICS, 2024, roč.~14, č.~8, s.~1-12. ISSN~2158-3226. Dostupné z: https://dx.doi.org/10.1063/5.0216979.
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