Frontiers in Neuroscience (Mar 2024)

Theta-frequency medial septal nucleus deep brain stimulation increases neurovascular activity in MK-801-treated mice

  • Lindsey M. Crown,
  • Kofi A. Agyeman,
  • Wooseong Choi,
  • Nancy Zepeda,
  • Ege Iseri,
  • Pooyan Pahlavan,
  • Steven J. Siegel,
  • Charles Liu,
  • Charles Liu,
  • Charles Liu,
  • Charles Liu,
  • Vasileios Christopoulos,
  • Vasileios Christopoulos,
  • Vasileios Christopoulos,
  • Darrin J. Lee,
  • Darrin J. Lee,
  • Darrin J. Lee,
  • Darrin J. Lee,
  • Darrin J. Lee,
  • Darrin J. Lee

DOI
https://doi.org/10.3389/fnins.2024.1372315
Journal volume & issue
Vol. 18

Abstract

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IntroductionDeep brain stimulation (DBS) has shown remarkable success treating neurological and psychiatric disorders including Parkinson’s disease, essential tremor, dystonia, epilepsy, and obsessive-compulsive disorder. DBS is now being explored to improve cognitive and functional outcomes in other psychiatric conditions, such as those characterized by reduced N-methyl-D-aspartate (NMDA) function (i.e., schizophrenia). While DBS for movement disorders generally involves high-frequency (>100 Hz) stimulation, there is evidence that low-frequency stimulation may have beneficial and persisting effects when applied to cognitive brain networks.MethodsIn this study, we utilize a novel technology, functional ultrasound imaging (fUSI), to characterize the cerebrovascular impact of medial septal nucleus (MSN) DBS under conditions of NMDA antagonism (pharmacologically using Dizocilpine [MK-801]) in anesthetized male mice.ResultsImaging from a sagittal plane across a variety of brain regions within and outside of the septohippocampal circuit, we find that MSN theta-frequency (7.7 Hz) DBS increases hippocampal cerebral blood volume (CBV) during and after stimulation. This effect was not present using standard high-frequency stimulation parameters [i.e., gamma (100 Hz)].DiscussionThese results indicate the MSN DBS increases circuit-specific hippocampal neurovascular activity in a frequency-dependent manner and does so in a way that continues beyond the period of electrical stimulation.

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