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1271 High-Density EEG Correlates During Confusional Arousals in a Child With a Long-Lasting History Of Sleepwalking
Journal article

1271 High-Density EEG Correlates During Confusional Arousals in a Child With a Long-Lasting History Of Sleepwalking

  • Castelnovo, A Sleep Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, SWITZERLAND
  • Amato, N Sleep Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, SWITZERLAND
  • Riccardi, S Sleep Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, SWITZERLAND
  • Pereno, M Sleep Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, SWITZERLAND
  • Miano, S Sleep Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, SWITZERLAND
  • Manconi, M Sleep Center, Neurocenter of the Southern Switzerland, Regional Hospital (EOC) of Lugano, Lugano, SWITZERLAND
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  • 2020-5-27
Published in:
  • Sleep. - Oxford University Press (OUP). - 2020, vol. 43, no. Supplement_1, p. A483-A483
Physiology (medical)
Clinical Neurology
English Abstract

Introduction
Sleepwalking belongs to a family of disorders (Disorders of Arousal - DOA) that are thought to derive from incomplete arousals out of Non Rapid Eye Movement (NREM) sleep. At yet, our knowledge about the specific neural dynamics occurring during clinical episodes is limited and relies on one SPECT case study, four stereo-EEG case reports/series and one single high-density electro-encephalography (hdEEG) case report. We herein describe a single case captured by hdEEG.


Report of Case
We collected two consecutive sleep recordings (using a 256-channel hdEEG coupled with standard video-polysomnography) of a non-medicated, otherwise healthy, 13-year-old male, with a history of recurrent daily sleepwalking episodes. We visually identified 17 behavioral events during sleep stage 3 and divided them into two groups: clear clinical episodes (n = 7) and simple movements associated with burst of delta waves (n = 10). Source power topography in the delta range (1-4 Hz) was computed using LORETA. Source images during selected episodes were compared to 30 second-windows of baseline stage 3 sleep. Comparisons were performed using statistical non-parametric mapping with supra-threshold cluster tests. Events were associated with an increase of delta power over the right frontopolar prefrontal cortex (rPFC) / Broadman area 10 (BA10) at their onset. This finding was clearly observable even when considering only clear-cut events, followed by the involvement of the right dorsolateral and medial prefrontal cortex / BA9 and of the left superior temporal gyrus/ BA 22.


Conclusion
We were able to replicate a recently published case report by our group, where we highlighted the putative role of rPFC and PFC and prefronto-temporal circuit in DOA episodes. Intriguingly, we observed a lateralization of this effect, with a prominent right frontal involvement. Novel research has shown a physiological asymmetry in the generation of large slow waves between the two hemispheres. An increased right-left unbalance might prime behavioral episodes in DOA patients.
Language
  • English
Open access status
closed
Identifiers
Persistent URL
https://sonar.ch/global/documents/223658
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