Biocompatibility of a quad-shank neural probe

•Demonstrated fabrication of flexible neural probes using standard CMOS techniques.•The probe comprised gold pyramidal electrodes sandwiched between polyimide layers.•The electrode test impedance values at 1kHz are on average 135kΩ.•MWCNTs were deposited on electrodes resulting in impedance at 1kHz...

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Vydáno v:Solid-state electronics Ročník 136; s. 113 - 119
Hlavní autoři: Tyson, Joel, Tran, Minhquan, Slaughter, Gymama
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.10.2017
Témata:
High density electrode array
MEMS
Neural probe
Neural probe
MEMS
High density electrode array
ISSN:0038-1101, 1879-2405
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Shrnutí:•Demonstrated fabrication of flexible neural probes using standard CMOS techniques.•The probe comprised gold pyramidal electrodes sandwiched between polyimide layers.•The electrode test impedance values at 1kHz are on average 135kΩ.•MWCNTs were deposited on electrodes resulting in impedance at 1kHz to 6.89kΩ.•Cells proliferated on probe surface and exhibited very good morphology and viability. Multichannel, flexible neural probes have been fabricated using standard CMOS techniques. The neural probe consists of four shanks with 16 recording sites each of approximately 290μm2. The recording sites are created using gold rectangular pyramidal electrodes sandwiched between two polyimide dielectric layers. Windows in the first polyimide layer expose the electrode sites and bonding pads. The bonding pads and interconnect wires at the topmost section of the probe are soldered to tungsten wire followed by encapsulation with epoxy to protect the interconnections from contact with phosphate buffered saline solution. The electrode test impedance values at 1kHz are on average 135kΩ. Multi-walled carbon nanotubes (MWCNTs) were deposited on electrode sites resulting in a reduction of impedance at 1kHz to 6.89kΩ on average. Moreover, the cell viability and proliferation of the PC12 cells on the surface of the probe was investigated by trypan blue exclusion assay to evaluate biocompatibility of the probe material. The PC12 cells attached and grew on the surfaces of the probe with no significant effect on the cells’ morphology and viability. The polyimide probe displayed a good cell viability and proliferation, making the polyimide attractive for potential candidate as probe materials in the fabrication of neural probes.
ISSN:0038-1101
1879-2405
DOI:10.1016/j.sse.2017.06.019