Prognostication after cardiac arrest: how EEG and evoked potentials may improve the challenge

Benghanem, Sarah; Pruvost-Robieux, Estelle; Bouchereau, Eléonore; Gavaret, Martine; Cariou, Alain

doi:10.1186/s13613-022-01083-9

Cited by 21 publications

(11 citation statements)

References 180 publications

(264 reference statements)

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“…Evidence of the prognostic and diagnostic value of quantification of AEPs and neural information content or the spectral slope for assessing consciousness levels or the integrity of neural functions in reduced consciousness conditions is growing (Aellen et al, 2023;Alnes et al, 2021;Bekinschtein et al, 2009;Benghanem et al, 2022;Colombo et al, 2019Colombo et al, , 2023Comanducci et al, 2020;Liu et al, 2022;Morlet & Fischer, 2014;Pfeiffer et al, 2018). Measures based on information content can differentiate levels of consciousness (Casali et al, 2013), whereas both measures based on information content, spectral slope and AEPs are promising as prognostic tools for patients with disorders of consciousness (Colombo et al, 2023;Fischer et al, 2004;Liu et al, 2022;Pfeiffer et al, 2018;Tzovara et al, 2013).…”

Section: Information Content and The Spectral Slope In The Post-audit...mentioning

confidence: 99%

Neural complexity and the spectral slope characterise auditory processing in wakefulness and sleep

Alnes,

Bächlin,

Schindler

et al. 2023

Eur J of Neuroscience

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Auditory processing and the complexity of neural activity can both indicate residual consciousness levels and differentiate states of arousal. However, how measures of neural signal complexity manifest in neural activity following environmental stimulation and, more generally, how the electrophysiological characteristics of auditory responses change in states of reduced consciousness remain under‐explored. Here, we tested the hypothesis that measures of neural complexity and the spectral slope would discriminate stages of sleep and wakefulness not only in baseline electroencephalography (EEG) activity but also in EEG signals following auditory stimulation. High‐density EEG was recorded in 21 participants to determine the spatial relationship between these measures and between EEG recorded pre‐ and post‐auditory stimulation. Results showed that the complexity and the spectral slope in the 2–20 Hz range discriminated between sleep stages and had a high correlation in sleep. In wakefulness, complexity was strongly correlated to the 20–40 Hz spectral slope. Auditory stimulation resulted in reduced complexity in sleep compared to the pre‐stimulation EEG activity and modulated the spectral slope in wakefulness. These findings confirm our hypothesis that electrophysiological markers of arousal are sensitive to sleep/wake states in EEG activity during baseline and following auditory stimulation. Our results have direct applications to studies using auditory stimulation to probe neural functions in states of reduced consciousness.

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Section: Information Content and The Spectral Slope In The Post-audit...mentioning

confidence: 99%

Neural complexity and the spectral slope characterise auditory processing in wakefulness and sleep

Alnes,

Bächlin,

Schindler

et al. 2023

Eur J of Neuroscience

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“…The former are related to prefrontal cortex and limbic system lesions, while the latter are related to a disruption of key systems that support wakefulness and consciousness, such as the ascending reticular system and the hypothalamic and thalamic projections to the frontoparietal cortical network. 4 Two of the most used tools to assess HIBI severity after CA, somatosensory evoked potentials (SSEP) and EEG, 5 , 6 rely on the evaluation of information processing from the brainstem to the cortex and within thalamocortical loops. However, neuroprognosticaion remains challenging due to the diverse conditions in which HIBI presents itself, and our understanding of the multisystem physiological implications caused by severe brain damage is still limited.…”

Section: Introductionmentioning

confidence: 99%

Aberrant brain–heart coupling is associated with the severity of post cardiac arrest brain injury

Hermann,

Candia‐Rivera,

Sharshar

et al. 2024

Ann Clin Transl Neurol

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ObjectiveTo investigate autonomic nervous system activity measured by brain–heart interactions in comatose patients after cardiac arrest in relation to the severity and prognosis of hypoxic–ischemic brain injury.MethodsStrength and complexity of bidirectional interactions between EEG frequency bands (delta, theta, and alpha) and ECG heart rate variability frequency bands (low frequency, LF and high frequency, HF) were computed using a synthetic data generation model. Primary outcome was the severity of brain injury, assessed by (i) standardized qualitative EEG classification, (ii) somatosensory evoked potentials (N20), and (iii) neuron‐specific enolase levels. Secondary outcome was the 3‐month neurological status, assessed by the Cerebral Performance Category score [good (1–2) vs. poor outcome (3–4–5)].ResultsBetween January 2007 and July 2021, 181 patients were admitted to ICU for a resuscitated cardiac arrest. Poor neurological outcome was observed in 134 patients (74%). Qualitative EEG patterns suggesting high severity were associated with decreased LF/HF. Severity of EEG changes were proportional to higher absolute values of brain‐to‐heart coupling strength (p < 0.02 for all brain‐to‐heart frequencies) and lower values of alpha‐to‐HF complexity (p = 0.049). Brain‐to‐heart coupling strength was significantly higher in patients with bilateral absent N20 and correlated with neuron‐specific enolase levels at Day 3. This aberrant brain‐to‐heart coupling (increased strength and decreased complexity) was also associated with 3‐month poor neurological outcome.InterpretationOur results suggest that autonomic dysfunctions may well represent hypoxic–ischemic brain injury post cardiac arrest pathophysiology. These results open avenues for integrative monitoring of autonomic functioning in critical care patients.

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Section: Introductionmentioning

confidence: 99%

“…Methods range from the evaluation of brainstem and cortical integration of peripheral sensory information to the assessment of the complex interplay between subcortical and thalamo-cortical loops. The integration of sensory information can be assessed through pupillometry, auditory evoked potentials, or somatosensory evoked potentials (SSEP) 6 . The disrupted interplay between brain structures can be assessed with qualitative 7,8 and quantitative 9–11 analysis of EEG activity, and the analysis of axonal and neuronal injury by quantifying serum biomarkers (neuron-specific enolase, NSE), light-chain neurofilament light 12 , and cerebral MRI 13 .…”

Section: Introductionmentioning

confidence: 99%

Aberrant brain-heart coupling is associated with the severity and prognosis of hypoxic-ischemic brain injury after cardiac arrest

Hermann

Candia-Rivera

Sharshar

et al. 2023

Preprint

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Background and Objectives: Approximately 50% of post-cardiac arrest survivors remain comatose after 72h, a substantial proportion of which will have a poor neurological outcome, predominantly due to irreversible hypoxic-ischemic brain injury. Recent findings in healthy subjects and patients suggested that autonomic nervous system activity measured by brain-heart interactions could be reliable markers of consciousness and cognitive processing. Thus, we hypothesized that brain-heart interactions are associated with the severity of hypoxic-ischemic brain injury and the prognosis of these patients. Methods: In post-cardiac arrest patients still comatose 48h after sedation weaning, brain-heart interaction markers were computed on 5 minutes of continuous EEG/ECG recording using a synthetic data generation model, gathering bidirectional interactions between EEG frequency bands (delta, theta and alpha) and heart-rate variability frequency bands (low and high frequency). The strength and complexity of the interactions were quantified using medians and refined composite multiscale entropy. Primary outcome was the severity of brain injury, assessed by: (i) standardized qualitative EEG classification, (ii) somatosensory evoked potentials (N20), and (iii) neuron-specific enolase levels. Secondary outcome was the 3-month neurological status, assessed by the Cerebral Performance Category score [good (1-2) vs. poor outcome (3-4-5)]. Results: Between January 2007 and July 2021, 181 patients [116 males (64%), median age 61 years, age range 49-72 years] were admitted to ICU for a resuscitated cardiac arrest (76% out-of-hospital, 69% non-shockable rhythm). Poor neurological outcome was observed in 134 patients (74%). Qualitative EEG patterns suggesting high severity were associated with a decreased sympatho-vagal balance. Severity of EEG changes were proportional to higher absolute values of brain-to-heart coupling strength (p<2x10-3 for all brain-to-heart frequencies) and lower values of complexity (all p-values<0.05 except for alpha-to-low frequency). Brain-to-heart coupling strength was significantly higher in patients with bilateral absent N20 and correlated with neuron-specific enolase levels at day 3. This aberrant brain-to-heart coupling (increased strength, decreased complexity) was also associated with 3-month poor neurological outcome. Discussion : Our results suggest that autonomic dysfunctions may well represent hypoxic-ischemic brain injury post-cardiac arrest pathophysiology. These results open avenues for integrative monitoring of autonomic functioning in critical care patients with potential prognostic applications.

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Prognostication after cardiac arrest: how EEG and evoked potentials may improve the challenge

Cited by 21 publications

References 180 publications

Neural complexity and the spectral slope characterise auditory processing in wakefulness and sleep

Neural complexity and the spectral slope characterise auditory processing in wakefulness and sleep

Aberrant brain–heart coupling is associated with the severity of post cardiac arrest brain injury

Aberrant brain-heart coupling is associated with the severity and prognosis of hypoxic-ischemic brain injury after cardiac arrest

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