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  Gurke, J.; Naegele, T.E.; Hilton, S.; Pezone, R.; Curto, V.F.; Barone, D.G.; List-Kratochvil, E. J. W.; Carnicer-Lombarte, A.; Malliaras, G.G.: Hybrid fabrication of multimodal intracranial implants for lectrophysiology and local drug delivery. Materials Horizons 9 (2022), p. 1727-1734

10.1039/d1mh01855h
Open Access Version

Abstract:
New fabrication approaches for mechanically flexible implants hold the key to advancing the applications of neuroengineering in fundamental neuroscience and clinic. By combining the high precision of thin film microfabrication with the versatility of additive manufacturing, we demonstrate a straight-forward approach for the prototyping of intracranial implants with electrode arrays and microfluidic channels. We show that the implant can modulate neuronal activity in the hippocampus through localized drug delivery, while simultaneously recording brain activity by its electrodes. Moreover, good implant stability and minimal tissue response are seen one-week post-implantation. Our work shows the potential of hybrid fabrication combining different manufacturing techniques in neurotechnology and paves the way for a new approach to the development of multimodal implants.