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Journal of Zhejiang University SCIENCE B 1998 Vol.-1 No.-1 P.

http://doi.org/10.1631/jzus.B2500462


SWCNTs/PEDOT:PSS-modified microelectrode arrays reveal striatal-hippocampal neural encoding of movement initiation and place fields during goal-directed navigation


Author(s):  Jin SHAN1, 2, Wei XU1, 2, Jinping LUO1, 2, Yaoyao LIU1, 2, Ming LI1, 2, Luyi JING1, 2, Yu WANG1, 2, Shiya LV1, 2, Zhaojie XU1, 2, Juntao LIU1, 2, Yiming DUAN1, 2, Qianli JIA1, 2, Yilin SONG1, 2, Mixia WANG1, 2, Xinxia CAI1, 2

Affiliation(s):  1State Key Laboratory of Transducer Technology, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100190, China 2School of Electronic, Electrical and Communication Engineering, University of Chinese Academy of Sciences, Beijing 100049, China

Corresponding email(s):   Xinxia CAI, xxcai@mail.ie.ac.cn Yilin SONG, ylsong@mail.ie.ac.cn Mixia WANG, wangmixia@mail.ie.ac.cn

Key Words:  Microelectrode array, SWCNTs/PEDOT:PSS, Electrophysiology, Navigation


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Jin SHAN1,2, Wei XU1,2, Jinping LUO1,2, Yaoyao LIU1,2, Ming LI1,2, Luyi JING1,2, Yu WANG1,2, Shiya LV1,2, Zhaojie XU1,2, Juntao LIU1,2, Yiming DUAN1,2, Qianli JIA1,2, Yilin SONG1,2, Mixia WANG1,2, Xinxia CAI1,2. SWCNTs/PEDOT:PSS-modified microelectrode arrays reveal striatal-hippocampal neural encoding of movement initiation and place fields during goal-directed navigation[J]. Journal of Zhejiang University Science B, 1998, -1(-1): .

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Abstract: Goal-directed navigation necessitates coordinated interactions among multiple brain regions, with the hippocampus and striatum playing critical roles in spatial representation, movement-related information, and reward-related evaluation. The hippocampus, particularly the CA1 (Cornu Ammonis 1) region, is renowned for its role in spatial encoding via place cells. The striatum, a basal ganglia nucleus, can integrate cortical, thalamic, and limbic inputs to regulate motor planning, reward valuation, and behavioral flexibility. Despite extensive research, a key challenge remains: the lack of high spatiotemporal resolution, high-precision, and multi-channel electrodes that are structurally matched for reliable implantation across multiple brain regions. To address this, we developed two silicon-based microelectrode arrays (MEAs) anatomically tailored for dual-region neuronal electrophysiological recording of the striatum and CA1. By modifying the electrode sites with SWCNTs/PEDOT:PSS nanocomposites, we significantly enhanced the electrical performance, reducing impedance and phase delay. Leveraging this platform, we demonstrated that neurons in the rat ventral striatum (vStr) contribute to movement initiation, transmitting information to CA1, while CA1 place cells dynamically encode new goal locations and relay spatial information to neurons in the dorsal striatum (dStr). This research provides a reliable platform for exploring the neural interactions between the striatum and hippocampus, establishing a foundation for future studies on neural circuits in complex behaviors.

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