Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation

Abstract Multimodal neural interfaces open new opportunities in brain research by enabling more sophisticated and systematic neural circuit dissection. Integrating complementary features across distinct functional domains, these multifunctional neural probes have greatly advanced the interrogation o...

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Main Authors: Inho Kang, John Bilbily, Choong Yeon Kim, Chuanqian Shi, Manish K. Madasu, Eun Young Jeong, Kyle E. Parker, Do A Kwon, Bum‐Joon Jung, Jae‐Soon Yang, Juhyun Lee, Noah D.L. Kabbaj, Wonhee Lee, Jun‐Bo Yoon, Ream Al‐Hasani, Jianliang Xiao, Jordan G. McCall, Jae‐Woong Jeong
Format: Article
Language:English
Published: Wiley 2025-01-01
Series:Advanced Science
Subjects:
Online Access:https://doi.org/10.1002/advs.202406576
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author Inho Kang
John Bilbily
Choong Yeon Kim
Chuanqian Shi
Manish K. Madasu
Eun Young Jeong
Kyle E. Parker
Do A Kwon
Bum‐Joon Jung
Jae‐Soon Yang
Juhyun Lee
Noah D.L. Kabbaj
Wonhee Lee
Jun‐Bo Yoon
Ream Al‐Hasani
Jianliang Xiao
Jordan G. McCall
Jae‐Woong Jeong
author_facet Inho Kang
John Bilbily
Choong Yeon Kim
Chuanqian Shi
Manish K. Madasu
Eun Young Jeong
Kyle E. Parker
Do A Kwon
Bum‐Joon Jung
Jae‐Soon Yang
Juhyun Lee
Noah D.L. Kabbaj
Wonhee Lee
Jun‐Bo Yoon
Ream Al‐Hasani
Jianliang Xiao
Jordan G. McCall
Jae‐Woong Jeong
author_sort Inho Kang
collection DOAJ
description Abstract Multimodal neural interfaces open new opportunities in brain research by enabling more sophisticated and systematic neural circuit dissection. Integrating complementary features across distinct functional domains, these multifunctional neural probes have greatly advanced the interrogation of complex neural circuitry. However, introducing multiple functionalities into a compact form factor for freely behaving animals presents substantial design hurdles that complicate the device or require more than one device. Moreover, fixed functionality poses challenges in meeting the dynamic needs of chronic neuroscience inquiry, such as replacing consumable parts like batteries or drugs. To address these limitations, the modular implantable neural device (MIND) is introduced with a one‐touch magnetic assembly mechanism. Leveraging the seamless exchange of neural interface modules such as optical stimulation, drug delivery, and electrical stimulation, MIND ensures functional adaptability, reusability, and scalability. The versatile design of MIND will facilitate brain research by enabling simplified access to multiple functional modalities as needed.
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publishDate 2025-01-01
publisher Wiley
record_format Article
series Advanced Science
spelling doaj-art-995cb0e486d944f7b3a81c926e8fef862025-01-29T09:50:18ZengWileyAdvanced Science2198-38442025-01-01124n/an/a10.1002/advs.202406576Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile NeuromodulationInho Kang0John Bilbily1Choong Yeon Kim2Chuanqian Shi3Manish K. Madasu4Eun Young Jeong5Kyle E. Parker6Do A Kwon7Bum‐Joon Jung8Jae‐Soon Yang9Juhyun Lee10Noah D.L. Kabbaj11Wonhee Lee12Jun‐Bo Yoon13Ream Al‐Hasani14Jianliang Xiao15Jordan G. McCall16Jae‐Woong Jeong17School of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaDepartment of Anesthesiology Washington University in St. Louis St. Louis MO 63110 USASchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaDepartment of Mechanical Engineering University of Colorado Boulder Boulder CO 80309 USADepartment of Anesthesiology Washington University in St. Louis St. Louis MO 63110 USASchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaDepartment of Anesthesiology Washington University in St. Louis St. Louis MO 63110 USASchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaGraduate School of Nanoscience and Technology KAIST Daejeon 34141 Republic of KoreaSchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaSchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaDepartment of Anesthesiology Washington University in St. Louis St. Louis MO 63110 USAGraduate School of Nanoscience and Technology KAIST Daejeon 34141 Republic of KoreaSchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaDepartment of Anesthesiology Washington University in St. Louis St. Louis MO 63110 USADepartment of Mechanical Engineering University of Colorado Boulder Boulder CO 80309 USADepartment of Anesthesiology Washington University in St. Louis St. Louis MO 63110 USASchool of Electrical Engineering Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of KoreaAbstract Multimodal neural interfaces open new opportunities in brain research by enabling more sophisticated and systematic neural circuit dissection. Integrating complementary features across distinct functional domains, these multifunctional neural probes have greatly advanced the interrogation of complex neural circuitry. However, introducing multiple functionalities into a compact form factor for freely behaving animals presents substantial design hurdles that complicate the device or require more than one device. Moreover, fixed functionality poses challenges in meeting the dynamic needs of chronic neuroscience inquiry, such as replacing consumable parts like batteries or drugs. To address these limitations, the modular implantable neural device (MIND) is introduced with a one‐touch magnetic assembly mechanism. Leveraging the seamless exchange of neural interface modules such as optical stimulation, drug delivery, and electrical stimulation, MIND ensures functional adaptability, reusability, and scalability. The versatile design of MIND will facilitate brain research by enabling simplified access to multiple functional modalities as needed.https://doi.org/10.1002/advs.202406576magnetic assemblymodularneural deviceneuromodulationwireless
spellingShingle Inho Kang
John Bilbily
Choong Yeon Kim
Chuanqian Shi
Manish K. Madasu
Eun Young Jeong
Kyle E. Parker
Do A Kwon
Bum‐Joon Jung
Jae‐Soon Yang
Juhyun Lee
Noah D.L. Kabbaj
Wonhee Lee
Jun‐Bo Yoon
Ream Al‐Hasani
Jianliang Xiao
Jordan G. McCall
Jae‐Woong Jeong
Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation
Advanced Science
magnetic assembly
modular
neural device
neuromodulation
wireless
title Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation
title_full Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation
title_fullStr Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation
title_full_unstemmed Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation
title_short Wireless Modular Implantable Neural Device with One‐touch Magnetic Assembly for Versatile Neuromodulation
title_sort wireless modular implantable neural device with one touch magnetic assembly for versatile neuromodulation
topic magnetic assembly
modular
neural device
neuromodulation
wireless
url https://doi.org/10.1002/advs.202406576
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