Long Micro-Channel Electrode Arrays: A Novel Type of Regenerative Peripheral Nerve Interface

SP Lacour; JJ Fitzgerald; N Lago; Edward Tarte; S McMahon; J Fawcett

doi:10.1109/TNSRE.2009.2031241

Long Micro-Channel Electrode Arrays: A Novel Type of Regenerative Peripheral Nerve Interface

SP Lacour, JJ Fitzgerald, N Lago, Edward Tarte, S McMahon, J Fawcett

Electronic, Electrical and Systems Engineering

Research output: Contribution to journal › Article

56 Citations (Scopus)

Abstract

We have demonstrated that micro-channel electrode arrays with 100 mu m x 100 mu m cross-section channels support axon regeneration well, and that micro-channels of similar calibre and up to 5 mm long can support axon regeneration and vascularisation. They may be microfabricated using silicon, silicone, or polyimide and thin metal films to form 3-D bundles of long micro-channels. Arrays of "mini-nerves," i.e., miniature nerve fascicles with their own blood vessels, successfully grew through implants 0.5-5 mm long. Furthermore, guiding the regenerating nerve fibres into the small insulating channels allows for a significant increase of the extracellular (recordable) amplitude of action potentials, which promises considerable improvement for in vivo electrophysiology.

Original language	English
Pages (from-to)	454-460
Number of pages	7
Journal	IEEE Transactions on Neural Systems and Rehabilitation Engineering
Volume	17
Issue number	5
DOIs	https://doi.org/10.1109/TNSRE.2009.2031241
Publication status	Published - 1 Oct 2009

Keywords

Implantable electrodes
micro-channels
repair
polymers
peripheral nerve

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10.1109/TNSRE.2009.2031241

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AU - Fitzgerald, JJ

AU - Lago, N

AU - Tarte, Edward

AU - McMahon, S

AU - Fawcett, J

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N2 - We have demonstrated that micro-channel electrode arrays with 100 mu m x 100 mu m cross-section channels support axon regeneration well, and that micro-channels of similar calibre and up to 5 mm long can support axon regeneration and vascularisation. They may be microfabricated using silicon, silicone, or polyimide and thin metal films to form 3-D bundles of long micro-channels. Arrays of "mini-nerves," i.e., miniature nerve fascicles with their own blood vessels, successfully grew through implants 0.5-5 mm long. Furthermore, guiding the regenerating nerve fibres into the small insulating channels allows for a significant increase of the extracellular (recordable) amplitude of action potentials, which promises considerable improvement for in vivo electrophysiology.

AB - We have demonstrated that micro-channel electrode arrays with 100 mu m x 100 mu m cross-section channels support axon regeneration well, and that micro-channels of similar calibre and up to 5 mm long can support axon regeneration and vascularisation. They may be microfabricated using silicon, silicone, or polyimide and thin metal films to form 3-D bundles of long micro-channels. Arrays of "mini-nerves," i.e., miniature nerve fascicles with their own blood vessels, successfully grew through implants 0.5-5 mm long. Furthermore, guiding the regenerating nerve fibres into the small insulating channels allows for a significant increase of the extracellular (recordable) amplitude of action potentials, which promises considerable improvement for in vivo electrophysiology.

KW - Implantable electrodes

KW - micro-channels

KW - repair

KW - polymers

KW - peripheral nerve

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DO - 10.1109/TNSRE.2009.2031241

M3 - Article

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SN - 1534-4320

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JO - IEEE Transactions on Neural Systems and Rehabilitation Engineering

JF - IEEE Transactions on Neural Systems and Rehabilitation Engineering

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Long Micro-Channel Electrode Arrays: A Novel Type of Regenerative Peripheral Nerve Interface

Abstract

Keywords

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