Neural tissue-microelectrode interaction: Brain micromotion, electrical impedance, and flexible microelectrode insertion
Abstract
Insertion of a microelectrode into the brain to record/stimulate neurons damages neural tissue and blood vessels and initiates the brain's wound healing response. Due to the large difference between the stiffness of neural tissue and microelectrode, brain micromotion also leads to neural tissue damage and associated local immune response. Over time, following implantation, the brain's response to the tissue damage can result in microelectrode...
Paper Details
Title
Neural tissue-microelectrode interaction: Brain micromotion, electrical impedance, and flexible microelectrode insertion
Published Date
Jan 1, 2022
Volume
365
Pages
109388 - 109388
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