Wireless and battery-free technologies for neuroengineering

Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the develop...

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Bibliographic Details
Published inNature biomedical engineering Vol. 7; no. 4; pp. 405 - 423
Main Authors Won, Sang Min, Cai, Le, Gutruf, Philipp, Rogers, John A.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.04.2023
Nature Publishing Group
Subjects
631/378
631/61
639/166
Animal models
Animals
Biomedical and Life Sciences
Biomedical engineering
Biomedical Engineering/Biotechnology
Biomedicine
Brain research
Closed loops
Computer engineering
Electric Power Supplies
Interfaces
Models, Animal
Nanoparticles
Nervous system
Neurological disorders
Neurosciences
Physiology
Prostheses and Implants
Review Article
Social factors
Social interactions
Technology
Transplants & implants
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Abstract Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the development of miniaturized and ultralightweight devices as neuroengineering platforms that are wireless, battery-free and fully implantable, with capabilities that match or exceed those of wired or battery-powered alternatives. Such classes of advanced neural interfaces with optical, electrical or fluidic functionality can also combine recording and stimulation modalities for closed-loop applications in basic studies or in the practical treatment of abnormal physiological processes. This Review Article discusses progress in the development of miniaturized and ultralightweight devices for neuroengineering that are wireless, battery-free and fully implantable.
AbstractList Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the development of miniaturized and ultralightweight devices as neuroengineering platforms that are wireless, battery-free and fully implantable, with capabilities that match or exceed those of wired or battery-powered alternatives. Such classes of advanced neural interfaces with optical, electrical or fluidic functionality can also combine recording and stimulation modalities for closed-loop applications in basic studies or in the practical treatment of abnormal physiological processes.This Review Article discusses progress in the development of miniaturized and ultralightweight devices for neuroengineering that are wireless, battery-free and fully implantable.
Tethered optical, electrical and fluidic battery-powered devices that interface with neural tissue constrain or prevent subject motion, as well as social interactions, and prevent their long-term use in larger models, such as non-human primates, which inhabit complex environments, move over large distances and have high levels of manual dexterity. Here, we discuss recent advances in ultra-lightweight, miniaturized, wireless and battery-free devices that are fully implantable, with capabilities that match or exceed the performance of tethered and battery-powered alternatives, while bypassing their intrinsic limitations. These systems enable closed-loop applications that combine neural recordings and neurostimulation and include the long-lived delivery of therapeutic compounds and the real-time monitoring and treatment of abnormal physiological functions. Recent advances in material science and neuroengineering serve as the foundations for lightweight, miniaturized and fully implantable wireless devices that interface with biological tissues for recording and stimulating neural activity, without the need for batteries or physical tethers.
Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the development of miniaturized and ultralightweight devices as neuroengineering platforms that are wireless, battery-free and fully implantable, with capabilities that match or exceed those of wired or battery-powered alternatives. Such classes of advanced neural interfaces with optical, electrical or fluidic functionality can also combine recording and stimulation modalities for closed-loop applications in basic studies or in the practical treatment of abnormal physiological processes.
Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the development of miniaturized and ultralightweight devices as neuroengineering platforms that are wireless, battery-free and fully implantable, with capabilities that match or exceed those of wired or battery-powered alternatives. Such classes of advanced neural interfaces with optical, electrical or fluidic functionality can also combine recording and stimulation modalities for closed-loop applications in basic studies or in the practical treatment of abnormal physiological processes.Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the development of miniaturized and ultralightweight devices as neuroengineering platforms that are wireless, battery-free and fully implantable, with capabilities that match or exceed those of wired or battery-powered alternatives. Such classes of advanced neural interfaces with optical, electrical or fluidic functionality can also combine recording and stimulation modalities for closed-loop applications in basic studies or in the practical treatment of abnormal physiological processes.
Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby limiting the utility of these devices in behavioural neuroscience research. In this Review Article, we discuss recent progress in the development of miniaturized and ultralightweight devices as neuroengineering platforms that are wireless, battery-free and fully implantable, with capabilities that match or exceed those of wired or battery-powered alternatives. Such classes of advanced neural interfaces with optical, electrical or fluidic functionality can also combine recording and stimulation modalities for closed-loop applications in basic studies or in the practical treatment of abnormal physiological processes. This Review Article discusses progress in the development of miniaturized and ultralightweight devices for neuroengineering that are wireless, battery-free and fully implantable.
Author Rogers, John A.
Cai, Le
Gutruf, Philipp
Won, Sang Min
AuthorAffiliation 1 Department of Electrical and Computer Engineering, Sungkyunkwan University, Suwon, 16419, South Korea
8 Center for Advanced Molecular Imaging, Northwestern University, Evanston, IL, USA
2 Biomedical Engineering, College of Engineering, The University of Arizona, Tucson, AZ, USA
7 Department of Biomedical Engineering, Northwestern University, Evanston, IL, USA
3 Bio5 Institute and Department of Neurology, University of Arizona, Tucson, AZ, 85721, USA
4 Department of Electrical and Computer Engineering, University of Arizona, Tucson, AZ 85721, USA
12 Department of Electrical and Computer Engineering, Northwestern University, Evanston, IL, USA
6 Center for Bio-Integrated Electronics, Northwestern University, Evanston, IL, USA
11 Department of Neurological Surgery, Northwestern University, Evanston, IL, USA
10 Department of Chemistry, Northwestern University, Evanston, IL, USA
9 Department of Mechanical Engineering, Northwestern University, Evanston, IL, USA
13 Simpson Querrey Institute for BioNano
AuthorAffiliation_xml – name: 11 Department of Neurological Surgery, Northwestern University, Evanston, IL, USA
– name: 9 Department of Mechanical Engineering, Northwestern University, Evanston, IL, USA
– name: 12 Department of Electrical and Computer Engineering, Northwestern University, Evanston, IL, USA
– name: 4 Department of Electrical and Computer Engineering, University of Arizona, Tucson, AZ 85721, USA
– name: 3 Bio5 Institute and Department of Neurology, University of Arizona, Tucson, AZ, 85721, USA
– name: 13 Simpson Querrey Institute for BioNanotechnology, Northwestern University, Evanston, IL, USA
– name: 10 Department of Chemistry, Northwestern University, Evanston, IL, USA
– name: 5 Department of Materials Science and Engineering, Northwestern University, Evanston, IL, USA
– name: 6 Center for Bio-Integrated Electronics, Northwestern University, Evanston, IL, USA
– name: 2 Biomedical Engineering, College of Engineering, The University of Arizona, Tucson, AZ, USA
– name: 1 Department of Electrical and Computer Engineering, Sungkyunkwan University, Suwon, 16419, South Korea
– name: 7 Department of Biomedical Engineering, Northwestern University, Evanston, IL, USA
– name: 8 Center for Advanced Molecular Imaging, Northwestern University, Evanston, IL, USA
Author_xml – sequence: 1
  givenname: Sang Min
  surname: Won
  fullname: Won, Sang Min
  organization: Department of Electrical and Computer Engineering, Sungkyunkwan University
– sequence: 2
  givenname: Le
  surname: Cai
  fullname: Cai, Le
  organization: Biomedical Engineering, College of Engineering, The University of Arizona
– sequence: 3
  givenname: Philipp
  orcidid: 0000-0002-7183-7268
  surname: Gutruf
  fullname: Gutruf, Philipp
  email: pgutruf@arizona.edu
  organization: Biomedical Engineering, College of Engineering, The University of Arizona, Bio5 Institute and Neuroscience GIDP, University of Arizona, Department of Electrical and Computer Engineering, University of Arizona
– sequence: 4
  givenname: John A.
  orcidid: 0000-0002-2980-3961
  surname: Rogers
  fullname: Rogers, John A.
  email: jrogers@northwestern.edu
  organization: Department of Materials Science and Engineering, Northwestern University, Center for Bio-Integrated Electronics, Northwestern University, Department of Biomedical Engineering, Northwestern University, Center for Advanced Molecular Imaging, Northwestern University, Department of Mechanical Engineering, Northwestern University, Department of Chemistry, Northwestern University, Department of Neurological Surgery, Northwestern University, Department of Electrical and Computer Engineering, Northwestern University, Simpson Querrey Institute for BioNanotechnology, Northwestern University
BackLink https://www.ncbi.nlm.nih.gov/pubmed/33686282$$D View this record in MEDLINE/PubMed
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Snippet Tethered and battery-powered devices that interface with neural tissues can restrict natural motions and prevent social interactions in animal models, thereby...
Tethered optical, electrical and fluidic battery-powered devices that interface with neural tissue constrain or prevent subject motion, as well as social...
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SubjectTerms 631/378
631/61
639/166
Animal models
Animals
Biomedical and Life Sciences
Biomedical engineering
Biomedical Engineering/Biotechnology
Biomedicine
Brain research
Closed loops
Computer engineering
Electric Power Supplies
Interfaces
Models, Animal
Nanoparticles
Nervous system
Neurological disorders
Neurosciences
Physiology
Prostheses and Implants
Review Article
Social factors
Social interactions
Technology
Transplants & implants
Title Wireless and battery-free technologies for neuroengineering
URI https://link.springer.com/article/10.1038/s41551-021-00683-3
https://www.ncbi.nlm.nih.gov/pubmed/33686282
https://www.proquest.com/docview/2806291160
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https://pubmed.ncbi.nlm.nih.gov/PMC8423863
Volume 7
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