Soft, Thiol‐ene/Acrylate‐Based Electrode Array for Long‐Term Recording of Intracranial EEG Signals with Improved Biocompatibility in Mice

Fedor, Flóra Zsófia [Fedor, Flóra Zsófia (Neurobiológia), author] Institute of Technical Physics and Materials Sc...; Mikrorendszerek Laboratórium (MFA); Faculty of Engineering (UP); Információs Technológiai és Bionikai Kar (PPCU); Neuronhálózat és Dendritikus Aktivitás Kutatócs...; Madarász, Miklós* [Madarász, Miklós (Neurobiológia), author] Neuronhálózat és Dendritikus Aktivitás Kutatócs...; School of PhD Studies (SU); Zátonyi, Anita* [Zátonyi, Anita (Mikrotechnológia), author] Információs Technológiai és Bionikai Kar (PPCU); Szabó, Ágnes [Szabó, Ágnes (neuroMEMS), author] Roska Tamás Műszaki és Természettudományi Dokto... (PPCU / ITK); Lőrincz, Tibor [Lőrincz, Tibor (elektrofiziológia), author] Neuronhálózat és Dendritikus Aktivitás Kutatócs...; Danda, Vindhya; Spurgin, Lisa; Manz, Connie; Rózsa, Balázs [Rózsa J., Balázs (Idegtudomány, fizika), author] Információs Technológiai és Bionikai Kar (PPCU); Neuronhálózat és Dendritikus Aktivitás Kutatócs...; Institute of Experimental Medicine; Fekete, Zoltán ✉ [Fekete, Zoltán (neuroMEMS), author] Információs Technológiai és Bionikai Kar (PPCU)

English Article (Journal Article) Scientific
Published: ADVANCED MATERIALS TECHNOLOGIES 2365-709X 2365-709X 7 (5) Paper: 2100942 , 10 p. 2022
  • SJR Scopus - Industrial and Manufacturing Engineering: D1
Identifiers
Fundings:
  • (FK 134403) Funder: NRDIO
  • (TKP2020-NKA-11)
  • Hungarian Brain Research Program(2017-1.2.1-NKP-2017-00002) Funder: NRDIO
  • European Research Council (ERC)(682426,)
  • (KFI-2018-00097)
  • (VKE-2018-00032)
  • European Research Council(712821-NEURAM)
  • (ÚNKP-20-3)
  • (ÚNKP-20-3-II-PPKE-28)
Subjects:
  • Materials Processes
Thiol‐ene/acrylate, a softening polymer material, rapidly gained attention during the past few years as a substrate of intracortical probes, as soft polymers can mitigate foreign body response by reducing mechanical mismatch between the neural implant and the surrounding brain tissue. This paper presents a comprehensive analysis of a thiol‐ene/acrylate based microECoG (micro – electrocorticography, μECoG) device with 31 sputtered iridium oxide electrodes. Long‐term electrochemical measurements provide firm evidence on the reliability of the novel layer structure and the related packaging method. In vivo impedance measurements indicated stable electrode yield (over 75%), without apparent signs of delamination or material degradation over 75 days. Awake recordings of theta oscillations with signal‐to‐noise ratio between 1.04 and 5.74 over this extended period also confirmed the applicability of the device. Chronic immune response characterized by Glial Fibrillary Acidic Protein staining of astrocytes and fluorescent Nissl (NeuroTrace) staining of neurons revealed only modest foreign body reaction after 80 days of implantation. The study presents novel data that confirms the feasibility of softening polymer‐based μECoG devices as chronically implantable neural interfaces.
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2026-01-22 05:19