SU-8 based microprobes with integrated planar electrodes for enhanced neural depth recording

Here, we describe new fabrication methods aimed to integrate planar tetrode-like electrodes into a polymer SU-8 based microprobe for neuronal recording applications. New concepts on the fabrication sequences are introduced in order to eliminate the typical electrode–tissue gap associated to the pass...

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Bibliographic Details
Published inBiosensors & bioelectronics Vol. 37; no. 1; pp. 1 - 5
Main Authors Altuna, Ane, Menendez de la Prida, Liset, Bellistri, Elisa, Gabriel, Gemma, Guimerá, Anton, Berganzo, Javier, Villa, Rosa, Fernández, Luis J.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 01.08.2012
Elsevier
Subjects
Action potential
Action Potentials
Animals
Biological and medical sciences
Biotechnology
Dielectric Spectroscopy
Epoxy Compounds - chemistry
Equipment Design
Fundamental and applied biological sciences. Psychology
Hippocampus - cytology
Microelectrodes
Microtechnology - methods
Neural recording
Neurons - physiology
Polymers - chemistry
Rats
SU-8 microprobe
Tetrode
Action potential
SU-8 microprobe
Neural recording
Tetrode
Electrodes
Recording
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Summary:Here, we describe new fabrication methods aimed to integrate planar tetrode-like electrodes into a polymer SU-8 based microprobe for neuronal recording applications. New concepts on the fabrication sequences are introduced in order to eliminate the typical electrode–tissue gap associated to the passivation layer. Optimization of the photolithography technique and high step coverage of the sputtering process have been critical steps in this new fabrication process. Impedance characterization confirmed the viability of the electrodes for reliable neuronal recordings with values comparable to commercial probes. Furthermore, a homogeneous sensing behavior was obtained in all the electrodes of each probe. Finally, in vivo action potential and local field potential recordings were successfully obtained from the rat dorsal hippocampus. Peak-to-peak amplitude of action potentials ranged from noise level to up to 400–500μV. Moreover, action potentials of different amplitudes and shapes were recorded from all the four recording sites, suggesting improved capability of the tetrode to distinguish from different neuronal sources. ► Electrodes at the SU-8 probe surface level have been fabricated. ► Different amplitude and shape of action potentials were distinguished. ► Peak-to-peak amplitude of action potentials ranged up to 400–500μV.
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ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2012.03.039