Literature DB >> 20535574

Flexible and stretchable micro-electrodes for in vitro and in vivo neural interfaces.

Stéphanie P Lacour1, Samia Benmerah, Edward Tarte, James FitzGerald, Jordi Serra, Stephen McMahon, James Fawcett, Oliver Graudejus, Zhe Yu, Barclay Morrison.   

Abstract

Microelectrode arrays (MEAs) are designed to monitor and/or stimulate extracellularly neuronal activity. However, the biomechanical and structural mismatch between current MEAs and neural tissues remains a challenge for neural interfaces. This article describes a material strategy to prepare neural electrodes with improved mechanical compliance that relies on thin metal film electrodes embedded in polymeric substrates. The electrode impedance of micro-electrodes on polymer is comparable to that of MEA on glass substrates. Furthermore, MEAs on plastic can be flexed and rolled offering improved structural interface with brain and nerves in vivo. MEAs on elastomer can be stretched reversibly and provide in vitro unique platforms to simultaneously investigate the electrophysiological of neural cells and tissues to mechanical stimulation. Adding mechanical compliance to MEAs is a promising vehicle for robust and reliable neural interfaces.

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Year:  2010        PMID: 20535574     DOI: 10.1007/s11517-010-0644-8

Source DB:  PubMed          Journal:  Med Biol Eng Comput        ISSN: 0140-0118            Impact factor:   2.602


  26 in total

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  46 in total

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9.  Improved 3D Hydrogel Cultures of Primary Glial Cells for In Vitro Modelling of Neuroinflammation.

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10.  Neuroadhesive protein coating improves the chronic performance of neuroelectronics in mouse brain.

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