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Last modified by galluzziandrea on 2022/06/20 12:33
From version 8.1
edited by galluzziandrea
on 2021/12/07 14:35
on 2021/12/07 14:35
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To version 7.1
edited by galluzziandrea
on 2021/12/07 14:35
on 2021/12/07 14:35
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... ... @@ -5,8 +5,8 @@ 5 5 **Antonio Pazienti^^1^^, Andrea Galluzzi^^1^^, Miguel Dasilva^^2,¥^^, Maria V. Sanchez-Vives^^2,3^^, Maurizio Mattia^^1,*^^** 6 6 7 7 8 -(% class="wikigeneratedid" id="HRunningtitle:Expansionofslow-wavemodesA0acrossbrainstates" style="text-align: center;" %)9 -Running title: Expansion of slow-wave modes across brain states 8 +(% style="text-align: center;" %) 9 +=== Running title: Expansion of slow-wave modes across brain states === 10 10 11 11 12 12 (% style="text-align: center;" %)
- Slow waves form expanding, memory-rich mesostates steered by local excitability in fading anesthesia
- Summary
- Introduction
- Results:
- Lightening up of anesthesia increases frequency and complexity of slow waves
- Modes of propagation increase in number and speed as anesthesia fades out
- Wavefronts are shaped by previous waves differently across anesthesia levels
- Leading and following assemblies differentially contribute to the rise of complexity
- Changes in local excitability explain the increase of slow-wave complexity
- Anesthesia fading out induces increasing fluctuations of SWA features
- Discussion
- Switch of global brain state associated with anesthesia
- Role of subcortical regions in the slow-wave anti-correlation
- Relationship between slow waves and EEG microstates
- STAR Methods
- Animals
- Surgical procedures
- Electrophysiological recordings
- Data analysis and statistics
- MUA estimate and detection of the state transitions
- Extraction of the wave entropy index (WEI)