Stimulation of small diameter myelinated and unmyelinated abdominal vagal neurons using high frequency pulses

Author

Malbert, C.-H. ; Divoux, J.-L. ; Maciejasz, P. ; Picq, C. ; Andreu, D. ; Guiraud, D.

Author_Institution

Inst. Nat. of Agronomic Res., St. Gilles, France

fYear

2015

fDate

22-24 April 2015

Firstpage

510

Lastpage

513

Abstract

The voltage required to stimulate small diameter myelinated (Adelta fibres) and unmyelinated (C fibres) neurons consistently is so large that it is unsafe for chronic vagal stimulation. We present here a solution that reduces by 80% the amount of electrical charge necessary to produce action potential. These solutions were tested in a porcine model that allowed simultaneously to locate the origin of the afferent neurons, to stimulate the vagal trunks at distance from the recording electrode and to record the evoked activity of one neuron using the single afferent method. The reduction in current supplied by the most effective pulse pattern makes possible to incorporate this solution in an implanted device without damaging the vagal nerve.

Keywords

bioelectric potentials; biomedical electrodes; neurophysiology; Adelta fibres; C fibres; action potential; chronic vagal stimulation; electrical charge; evoked activity; high frequency pulses; implanted device; porcine model; pulse pattern; recording electrode; single afferent method; small diameter myelinated abdominal vagal neuron stimulation; unmyelinated abdominal vagal neuron stimulation; vagal trunks; Animals; Electric potential; Electrodes; Neurons; Shape; Software; Stomach;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Engineering (NER), 2015 7th International IEEE/EMBS Conference on

Conference_Location

Montpellier

Type

conf

DOI

10.1109/NER.2015.7146671

Filename

7146671