Reversible Conduction Block in Peripheral Nerve Using Electrical Waveforms | Zendy

Niloy Bhadra | Zendy; Tina Vrabec | Zendy; Narendra Bhadra | Zendy; Kevin L. Kilgore | Zendy

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Reversible Conduction Block in Peripheral Nerve Using Electrical Waveforms

Author(s) -

Niloy Bhadra,

Tina Vrabec,

Narendra Bhadra,

Kevin L. Kilgore

Publication year - 2017

Publication title -

bioelectronics in medicine

Language(s) - English

Resource type - Journals

eISSN - 2059-1519

pISSN - 2059-1500

DOI - 10.2217/bem-2017-0004

Subject(s) - block (permutation group theory) , peripheral , waveform , peripheral nerve , nerve conduction , thermal conduction , materials science , electrical engineering , medicine , mathematics , anatomy , composite material , engineering , voltage , geometry

Electrical nerve block uses electrical waveforms to block action potential propagation. Materials & Methods: Two key features that distinguish electrical nerve block from other nonelectrical means of nerve block: block occurs instantly, typically within 1 s; and block is fully and rapidly reversible (within seconds). Results: Approaches for achieving electrical nerve block are reviewed, including kilohertz frequency alternating current and charge-balanced polarizing current. We conclude with a discussion of the future directions of electrical nerve block. Conclusion: Electrical nerve block is an emerging technique that has many significant advantages over other methods of nerve block. This field is still in its infancy, but a significant expansion in the clinical application of this technique is expected in the coming years.

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