AI Article Synopsis

  • Burst-suppression (BS) in EEG is characterized by alternating high-amplitude slow waves (bursts) and flat periods (suppression), commonly seen in comatose patients and linked to various medical conditions.
  • This study investigated the neuronal network responsible for burst and suppression phases in 13 neonates and infants using advanced EEG analysis techniques to track brain connectivity.
  • Results indicated that burst phases involve active communication between the thalamus, brainstem, and cortical regions, while suppression phases show diminished interaction, suggesting a "cortical deafferentiation" during suppression that may impact neurological function.

Article Abstract

Introduction: Burst-suppression (BS) is an electroencephalography (EEG) pattern consisting of alternant periods of slow waves of high amplitude (burst) and periods of so called flat EEG (suppression). It is generally associated with coma of various etiologies (hypoxia, drug-related intoxication, hypothermia, and childhood encephalopathies, but also anesthesia). Animal studies suggest that both the cortex and the thalamus are involved in the generation of BS. However, very little is known about mechanisms of BS in humans. The aim of this study was to identify the neuronal network underlying both burst and suppression phases using source reconstruction and analysis of functional and effective connectivity in EEG.

Material/methods: Dynamic imaging of coherent sources (DICS) was applied to EEG segments of 13 neonates and infants with burst and suppression EEG pattern. The brain area with the strongest power in the analyzed frequency (1-4 Hz) range was defined as the reference region. DICS was used to compute the coherence between this reference region and the entire brain. The renormalized partial directed coherence (RPDC) was used to describe the informational flow between the identified sources.

Results/conclusion: Delta activity during the burst phases was associated with coherent sources in the thalamus and brainstem as well as bilateral sources in cortical regions mainly frontal and parietal, whereas suppression phases were associated with coherent sources only in cortical regions. Results of the RPDC analyses showed an upwards informational flow from the brainstem towards the thalamus and from the thalamus to cortical regions, which was absent during the suppression phases. These findings may support the theory that a "cortical deafferentiation" between the cortex and sub-cortical structures exists especially in suppression phases compared to burst phases in burst suppression EEGs. Such a deafferentiation may play a role in the poor neurological outcome of children with these encephalopathies.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4415810PMC
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0123807PLOS

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