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Thalamic feedback shapes brain responses evoked by cortical stimulation in mice and humans.

Simone RussoLeslie D ClaarLydia MarksGiri KrishnanGiulia FurregoniFlavia Maria ZauliGabriel HassanMichela SolbiatiPiergiorgio d'OrioEzequiel MikulanSimone RussoMario RosanovaIvana SartoriMaxim BazhenovAndrea PigoriniMarcello MassiminiChristof KochIrene Rembado
Published in: bioRxiv : the preprint server for biology (2024)
Cortical stimulation with single pulses is a common technique in clinical practice and research. However, we still do not understand the extent to which it engages subcortical circuits which contribute to the associated evoked potentials (EPs). Here we find that cortical stimulation generates remarkably similar EPs in humans and mice, with a late component similarly modulated by the subject's behavioral state. We optogenetically dissect the underlying circuit in mice, demonstrating that the late component of these EPs is caused by a thalamic hyperpolarization and rebound. The magnitude of this late component correlates with the bursting frequency and synchronicity of thalamic neurons, modulated by the subject's behavioral state. A simulation of the thalamo-cortical circuit highlights that both intrinsic thalamic currents as well as cortical and thalamic GABAergic neurons contribute to this response profile. We conclude that the cortical stimulation engages cortico-thalamo-cortical circuits highly preserved across different species and stimulation modalities.
Keyphrases
  • deep brain stimulation
  • white matter
  • multiple sclerosis
  • adipose tissue
  • subarachnoid hemorrhage