Frontiers in Neurology (Jun 2023)

Modulation of the thalamus by microburst vagus nerve stimulation: a feasibility study protocol

  • Ryan Verner,
  • Jerzy P. Szaflarski,
  • Jane B. Allendorfer,
  • Kristl Vonck,
  • Gaia Giannicola,
  • Microburst Study Group,
  • Danielle McDermott,
  • Mesha Gay Brown,
  • Lesley Kaye,
  • Michael Macken,
  • William O. Tatum,
  • Cornelia Drees,
  • Selim R. Benbadis,
  • Zeenat Jaisani,
  • Muhammad Zafar,
  • Kristl Vonck,
  • Rebecca O'Dwyer,
  • Blake Newman,
  • Pegah Afra,
  • Jane Allendorfer,
  • Jerzy P. Szaflarski,
  • Ryan Verner,
  • Kathryn Nichol,
  • Charles Gordon,
  • Jason Begnaud,
  • Amy Keith,
  • Elhum Shamshiri,
  • Steffen Fetzer,
  • Giovanni Ranuzzi,
  • Gaia Giannicola,
  • Mei Jiang,
  • Wim Van Grunderbeek,
  • Irena Bellinski,
  • Elizabeth Cunningham,
  • Ann Mertens,
  • Fiona Lynn,
  • Seyhmus Aydemir

DOI
https://doi.org/10.3389/fneur.2023.1169161
Journal volume & issue
Vol. 14

Abstract

Read online

Vagus nerve stimulation (VNS) was the first device-based therapy for epilepsy, having launched in 1994 in Europe and 1997 in the United States. Since then, significant advances in the understanding of the mechanism of action of VNS and the central neurocircuitry that VNS modulates have impacted how the therapy is practically implemented. However, there has been little change to VNS stimulation parameters since the late 1990s. Short bursts of high frequency stimulation have been of increasing interest to other neuromodulation targets e.g., the spine, and these high frequency bursts elicit unique effects in the central nervous system, especially when applied to the vagus nerve. In the current study, we describe a protocol design that is aimed to assess the impact of high frequency bursts of stimulation, called “Microburst VNS”, in subjects with refractory focal and generalized epilepsies treated with this novel stimulation pattern in addition to standard anti-seizure medications. This protocol also employed an investigational, fMRI-guided titration protocol that permits personalized dosing of Microburst VNS among the treated population depending on the thalamic blood-oxygen-level-dependent signal. The study was registered on clinicaltrials.gov (NCT03446664). The first subject was enrolled in 2018 and the final results are expected in 2023.

Keywords