Distinct neural activities of the cortical layer 2/3 across isoflurane anesthesia: A large-scale simultaneous observation of neurons

Anesthesia inhibits neural activity in the brain, causing patients to lose consciousness and sensation during the surgery. Layers 2/3 of the cortex are important structures for the integration of information and consciousness, which are closely related to normal cognitive function. However, the dyna...

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Bibliographic Details
Published in:Biomedicine & pharmacotherapy 2024-06, Vol.175, p.116751, Article 116751
Main Authors: Wang, Zilin, Chen, Kunsha, Wu, Xiaodong, Zheng, Pengchang, Li, Ao, Guo, Yongxin, Gu, Xingzheng, Xiao, Guihua, Xie, Hao, Zhuang, ChaoWei, Cao, Jiangbei
Format: Article
Language:English
Subjects:
Anesthesia
Calcium fluorescence
Cortical layer2/3
High-resolution wide-field microscopy
In vivo imaging
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Summary:Anesthesia inhibits neural activity in the brain, causing patients to lose consciousness and sensation during the surgery. Layers 2/3 of the cortex are important structures for the integration of information and consciousness, which are closely related to normal cognitive function. However, the dynamics of the large-scale population of neurons across multiple regions in layer 2/3 during anesthesia and recovery processes remains unclear. We conducted simultaneous observations and analysis of large-scale calcium signaling dynamics across multiple cortical regions within cortical layer 2/3 during isoflurane anesthesia and recovery in vivo by high-resolution wide-field microscopy. Under isoflurane-induced anesthesia, there is an overall decrease in neuronal activity across multiple regions in the cortical layer 2/3. Notably, some neurons display a paradoxical increase in activity during anesthesia. Additionally, the activity among multiple cortical regions under anesthesia was homogeneous. It is only during the recovery phase that variability emerges in the extent of increased neural activity across different cortical regions. Within the same duration of anesthesia, neural activity did not return to preanesthetic levels. To sum up, anesthesia as a dynamic alteration of brain functional networks, encompassing shifts in patterns of neural activity, homogeneousness among cortical neurons and regions, and changes in functional connectivity. Recovery from anesthesia does not entail a reversal of these effects within the same timeframe. [Display omitted] •Innovative simultaneous observation of cortical neuron ensemble dynamics across brain regions in vivo.•Cortical layer 2/3 neuron ensembles exhibit different classification features across states of consciousness.•Homogeneous activity among cortical regions under anesthesia contrasts with increased variability during recovery.•Large-scale neural activity shows that cortical connectivity changes dynamically during anesthesia and recovery.
ISSN:0753-3322
1950-6007
1950-6007
DOI:10.1016/j.biopha.2024.116751