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Cellphone remote intelligent neuroregulation with self-powered wireless brain probe

Cellphone remote intelligent neuroregulation with self-powered wireless brain probe
Cellphone remote intelligent neuroregulation with self-powered wireless brain probe
The neural regulation that is tele-controlled remotely by medical professionals or artificial intelligence (AI) agents can meet the requirement of rapid, precise, personalized intervention and optimize the allocation of medical resources. Here, we develop a new self-powered wireless mini-invasive brain probe for remote intelligent neuroregulation. The probe can be wirelessly powered and controlled by cellphone audio tones (through piezoelectric effect) with the assistance of AI cellphone video analysis. The probe consists of a biocompatible pedestal integrated with implanting stimulation electrodes connected to embedded magnets and a magnetically coupled custom-designed signal-intensifying resonator integrated with a piezoelectric powered signal modulation circuit. A programmed audio tone functions as the wireless power source, and it can be tele-transmitted remotely from other cellphones with desired neural stimulation protocols. Combined with AI-enabled video monitoring of the epileptic tremor, we show that the probe can relieve the seizure events in the epileptic mice, and the therapeutic effect is confirmed by in-vivo electroencephalography and free-moving scenario. The multi-functionality of versatility, AI-assistance, wireless power transfer, and tele-transmission of the cellphone-interacted brain probe opens the possibility for remote precision neural modulation.
2211-2855
Guan, Hongye
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Tang, Yong
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Long, Zhihe
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Lin, Rui
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Liang, Shan
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Zhu, Fuqiang
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Zhong, Tianyan
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Zhang, Yaming
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Fan, Yaowei
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Wang, Zhen
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Shi, Chuang
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Ma, Wanli
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Sun, Sheng
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Chen, Meihua
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Xing, Lili
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Zhang, Yan
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Xue, Xinyu
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Zhan, Yang
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Guan, Hongye
fceca58d-b691-4d53-a498-bd4e778daf2f
Tang, Yong
ac2f0fd7-9e87-4cba-a943-04d542fc3d37
Long, Zhihe
4f14f042-73af-41f9-bfaa-b0502942cf70
Lin, Rui
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Liang, Shan
b87a5483-720c-46be-ba80-4f6187ead651
Zhu, Fuqiang
714039ca-9f9d-4d50-a6b5-1164e421bc9f
Zhong, Tianyan
d6507af7-eada-48fb-bbba-573ee57cf977
Zhang, Yaming
526f5df2-d940-4b3f-9d7c-0645898eb46b
Fan, Yaowei
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Wang, Zhen
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Shi, Chuang
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Ma, Wanli
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Sun, Sheng
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Chen, Meihua
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Xing, Lili
e1526551-2800-43d0-b19f-d350644f4119
Zhang, Yan
3aa0d73b-0de7-49af-b440-43f2b4dc41a5
Xue, Xinyu
57aa35c5-aa38-4fae-b55d-549fcddf2105
Zhan, Yang
96747b7b-e8d1-4824-8d19-7ba3aa25b50b

Guan, Hongye, Tang, Yong, Long, Zhihe, Lin, Rui, Liang, Shan, Zhu, Fuqiang, Zhong, Tianyan, Zhang, Yaming, Fan, Yaowei, Wang, Zhen, Shi, Chuang, Ma, Wanli, Sun, Sheng, Chen, Meihua, Xing, Lili, Zhang, Yan, Xue, Xinyu and Zhan, Yang (2022) Cellphone remote intelligent neuroregulation with self-powered wireless brain probe. Nano Energy, 106, [108105]. (doi:10.1016/j.nanoen.2022.108105).

Record type: Article

Abstract

The neural regulation that is tele-controlled remotely by medical professionals or artificial intelligence (AI) agents can meet the requirement of rapid, precise, personalized intervention and optimize the allocation of medical resources. Here, we develop a new self-powered wireless mini-invasive brain probe for remote intelligent neuroregulation. The probe can be wirelessly powered and controlled by cellphone audio tones (through piezoelectric effect) with the assistance of AI cellphone video analysis. The probe consists of a biocompatible pedestal integrated with implanting stimulation electrodes connected to embedded magnets and a magnetically coupled custom-designed signal-intensifying resonator integrated with a piezoelectric powered signal modulation circuit. A programmed audio tone functions as the wireless power source, and it can be tele-transmitted remotely from other cellphones with desired neural stimulation protocols. Combined with AI-enabled video monitoring of the epileptic tremor, we show that the probe can relieve the seizure events in the epileptic mice, and the therapeutic effect is confirmed by in-vivo electroencephalography and free-moving scenario. The multi-functionality of versatility, AI-assistance, wireless power transfer, and tele-transmission of the cellphone-interacted brain probe opens the possibility for remote precision neural modulation.

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1_NE_MAN_1206 - Accepted Manuscript
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Accepted/In Press date: 12 December 2022
e-pub ahead of print date: 13 December 2022
Published date: 14 December 2022

Identifiers

Local EPrints ID: 483778
URI: http://eprints.soton.ac.uk/id/eprint/483778
ISSN: 2211-2855
PURE UUID: 55652a42-03f1-4954-8faf-8201dd81e071
ORCID for Chuang Shi: ORCID iD orcid.org/0000-0002-1517-2775

Catalogue record

Date deposited: 06 Nov 2023 17:34
Last modified: 13 Dec 2024 05:01

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Contributors

Author: Hongye Guan
Author: Yong Tang
Author: Zhihe Long
Author: Rui Lin
Author: Shan Liang
Author: Fuqiang Zhu
Author: Tianyan Zhong
Author: Yaming Zhang
Author: Yaowei Fan
Author: Zhen Wang
Author: Chuang Shi ORCID iD
Author: Wanli Ma
Author: Sheng Sun
Author: Meihua Chen
Author: Lili Xing
Author: Yan Zhang
Author: Xinyu Xue
Author: Yang Zhan

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