Cargando…

A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans

Advances in technologies that can record and stimulate deep brain activity in humans have led to impactful discoveries within the field of neuroscience and contributed to the development of novel therapies for neurological and psychiatric disorders. Further progress, however, has been hindered by de...

Descripción completa

Detalles Bibliográficos
Autores principales: Topalovic, Uros, Barclay, Sam, Ling, Chenkai, Alzuhair, Ahmed, Yu, Wenhao, Hokhikyan, Vahagn, Chandrakumar, Hariprasad, Rozgic, Dejan, Jiang, Wenlong, Basir-Kazeruni, Sina, Maoz, Sabrina L., Inman, Cory S., Stangl, Matthias, Gill, Jay, Bari, Ausaf, Fallah, Aria, Eliashiv, Dawn, Pouratian, Nader, Fried, Itzhak, Suthana, Nanthia, Markovic, Dejan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9991917/
https://www.ncbi.nlm.nih.gov/pubmed/36804647
http://dx.doi.org/10.1038/s41593-023-01260-4
_version_ 1784902253338951680
author Topalovic, Uros
Barclay, Sam
Ling, Chenkai
Alzuhair, Ahmed
Yu, Wenhao
Hokhikyan, Vahagn
Chandrakumar, Hariprasad
Rozgic, Dejan
Jiang, Wenlong
Basir-Kazeruni, Sina
Maoz, Sabrina L.
Inman, Cory S.
Stangl, Matthias
Gill, Jay
Bari, Ausaf
Fallah, Aria
Eliashiv, Dawn
Pouratian, Nader
Fried, Itzhak
Suthana, Nanthia
Markovic, Dejan
author_facet Topalovic, Uros
Barclay, Sam
Ling, Chenkai
Alzuhair, Ahmed
Yu, Wenhao
Hokhikyan, Vahagn
Chandrakumar, Hariprasad
Rozgic, Dejan
Jiang, Wenlong
Basir-Kazeruni, Sina
Maoz, Sabrina L.
Inman, Cory S.
Stangl, Matthias
Gill, Jay
Bari, Ausaf
Fallah, Aria
Eliashiv, Dawn
Pouratian, Nader
Fried, Itzhak
Suthana, Nanthia
Markovic, Dejan
author_sort Topalovic, Uros
collection PubMed
description Advances in technologies that can record and stimulate deep brain activity in humans have led to impactful discoveries within the field of neuroscience and contributed to the development of novel therapies for neurological and psychiatric disorders. Further progress, however, has been hindered by device limitations in that recording of single-neuron activity during freely moving behaviors in humans has not been possible. Additionally, implantable neurostimulation devices, currently approved for human use, have limited stimulation programmability and restricted full-duplex bidirectional capability. In this study, we developed a wearable bidirectional closed-loop neuromodulation system (Neuro-stack) and used it to record single-neuron and local field potential activity during stationary and ambulatory behavior in humans. Together with a highly flexible and customizable stimulation capability, the Neuro-stack provides an opportunity to investigate the neurophysiological basis of disease, develop improved responsive neuromodulation therapies, explore brain function during naturalistic behaviors in humans and, consequently, bridge decades of neuroscientific findings across species.
format Online
Article
Text
id pubmed-9991917
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Nature Publishing Group US
record_format MEDLINE/PubMed
spelling pubmed-99919172023-03-09 A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans Topalovic, Uros Barclay, Sam Ling, Chenkai Alzuhair, Ahmed Yu, Wenhao Hokhikyan, Vahagn Chandrakumar, Hariprasad Rozgic, Dejan Jiang, Wenlong Basir-Kazeruni, Sina Maoz, Sabrina L. Inman, Cory S. Stangl, Matthias Gill, Jay Bari, Ausaf Fallah, Aria Eliashiv, Dawn Pouratian, Nader Fried, Itzhak Suthana, Nanthia Markovic, Dejan Nat Neurosci Technical Report Advances in technologies that can record and stimulate deep brain activity in humans have led to impactful discoveries within the field of neuroscience and contributed to the development of novel therapies for neurological and psychiatric disorders. Further progress, however, has been hindered by device limitations in that recording of single-neuron activity during freely moving behaviors in humans has not been possible. Additionally, implantable neurostimulation devices, currently approved for human use, have limited stimulation programmability and restricted full-duplex bidirectional capability. In this study, we developed a wearable bidirectional closed-loop neuromodulation system (Neuro-stack) and used it to record single-neuron and local field potential activity during stationary and ambulatory behavior in humans. Together with a highly flexible and customizable stimulation capability, the Neuro-stack provides an opportunity to investigate the neurophysiological basis of disease, develop improved responsive neuromodulation therapies, explore brain function during naturalistic behaviors in humans and, consequently, bridge decades of neuroscientific findings across species. Nature Publishing Group US 2023-02-20 2023 /pmc/articles/PMC9991917/ /pubmed/36804647 http://dx.doi.org/10.1038/s41593-023-01260-4 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Technical Report
Topalovic, Uros
Barclay, Sam
Ling, Chenkai
Alzuhair, Ahmed
Yu, Wenhao
Hokhikyan, Vahagn
Chandrakumar, Hariprasad
Rozgic, Dejan
Jiang, Wenlong
Basir-Kazeruni, Sina
Maoz, Sabrina L.
Inman, Cory S.
Stangl, Matthias
Gill, Jay
Bari, Ausaf
Fallah, Aria
Eliashiv, Dawn
Pouratian, Nader
Fried, Itzhak
Suthana, Nanthia
Markovic, Dejan
A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
title A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
title_full A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
title_fullStr A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
title_full_unstemmed A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
title_short A wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
title_sort wearable platform for closed-loop stimulation and recording of single-neuron and local field potential activity in freely moving humans
topic Technical Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9991917/
https://www.ncbi.nlm.nih.gov/pubmed/36804647
http://dx.doi.org/10.1038/s41593-023-01260-4
work_keys_str_mv AT topalovicuros awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT barclaysam awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT lingchenkai awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT alzuhairahmed awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT yuwenhao awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT hokhikyanvahagn awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT chandrakumarhariprasad awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT rozgicdejan awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT jiangwenlong awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT basirkazerunisina awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT maozsabrinal awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT inmancorys awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT stanglmatthias awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT gilljay awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT bariausaf awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT fallaharia awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT eliashivdawn awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT pouratiannader awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT frieditzhak awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT suthanananthia awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT markovicdejan awearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT topalovicuros wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT barclaysam wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT lingchenkai wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT alzuhairahmed wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT yuwenhao wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT hokhikyanvahagn wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT chandrakumarhariprasad wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT rozgicdejan wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT jiangwenlong wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT basirkazerunisina wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT maozsabrinal wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT inmancorys wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT stanglmatthias wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT gilljay wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT bariausaf wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT fallaharia wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT eliashivdawn wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT pouratiannader wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT frieditzhak wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT suthanananthia wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans
AT markovicdejan wearableplatformforclosedloopstimulationandrecordingofsingleneuronandlocalfieldpotentialactivityinfreelymovinghumans