Vagus nerve stimulation in the non-human primate: implantation methodology, characterization of nerve anatomy, target engagement and experimental applications

Autor: Aaron J. Suminski, Abigail Z. Rajala, Rasmus M. Birn, Ellie M. Mueller, Margaret E. Malone, Jared P. Ness, Caitlyn Filla, Kevin Brunner, Alan B. McMillan, Samuel O. Poore, Justin C. Williams, Dhanabalan Murali, Andrea Brzeczkowski, Samuel A. Hurley, Aaron M. Dingle, Weifeng Zeng, Wendell B. Lake, Kip A. Ludwig, Luis C. Populin
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: Bioelectronic Medicine, Vol 9, Iss 1, Pp 1-17 (2023)
Druh dokumentu: article
ISSN: 2332-8886
DOI: 10.1186/s42234-023-00111-8
Popis: Abstract Background Vagus nerve stimulation (VNS) is a FDA approved therapy regularly used to treat a variety of neurological disorders that impact the central nervous system (CNS) including epilepsy and stroke. Putatively, the therapeutic efficacy of VNS results from its action on neuromodulatory centers via projections of the vagus nerve to the solitary tract nucleus. Currently, there is not an established large animal model that facilitates detailed mechanistic studies exploring how VNS impacts the function of the CNS, especially during complex behaviors requiring motor action and decision making. Methods We describe the anatomical organization, surgical methodology to implant VNS electrodes on the left gagus nerve and characterization of target engagement/neural interface properties in a non-human primate (NHP) model of VNS that permits chronic stimulation over long periods of time. Furthermore, we describe the results of pilot experiments in a small number of NHPs to demonstrate how this preparation might be used in an animal model capable of performing complex motor and decision making tasks. Results VNS electrode impedance remained constant over months suggesting a stable interface. VNS elicited robust activation of the vagus nerve which resulted in decreases of respiration rate and/or partial pressure of carbon dioxide in expired air, but not changes in heart rate in both awake and anesthetized NHPs. Conclusions We anticipate that this preparation will be very useful to study the mechanisms underlying the effects of VNS for the treatment of conditions such as epilepsy and depression, for which VNS is extensively used, as well as for the study of the neurobiological basis underlying higher order functions such as learning and memory.
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