Relationship between brain function (aEEG) and brain structure (MRI) and their predictive value for neurodevelopmental outcome of preterm infants

Hüning, Britta; Storbeck, Tobias; Bruns, Nora; Dransfeld, Frauke; Hobrecht, Julia; Karpienski, Julia; Sirin, Selma; Schweiger, Bernd; Weiß, Christel; Felderhoff-Müser, Ursula; Müller, Hanna

doi:10.1007/s00431-018-3166-2

Cited by 33 publications

(17 citation statements)

References 38 publications

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“…Moreover, maturational features can be useful for the prognosis of long-term neurodevelopmental outcome [5][6][7][8]. In addition, magnetic resonance imaging (MRI) is a valuable neuroimaging modality to detect preterm brain abnormalities, such as white matter injury and cerebellar hemorrhages, difficult to detect using cranial ultrasound [9,10]. Sequential MRI allows longitudinal assessment of structural brain development, such as the integrity and growth of brain structures, and it is predictive of long-term outcome [11,12].…”

Section: Introductionmentioning

confidence: 99%

Relationship Between Early Functional and Structural Brain Developments and Brain Injury in Preterm Infants

Wel¹,

Huffel²,

Lavanga³

et al. 2021

Cerebellum

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Background Recent studies explored the relationship between early brain function and brain morphology, based on the hypothesis that increased brain activity can positively affect structural brain development and that excitatory neuronal activity stimulates myelination. Objective To investigate the relationship between maturational features from early and serial aEEGs after premature birth and MRI metrics characterizing structural brain development and injury, measured around 30weeks postmenstrual age (PMA) and at term. Moreover, we aimed to verify whether previously developed maturational EEG features are related with PMA. Design/Methods One hundred six extremely preterm infants received bedside aEEGs during the first 72h and weekly until week 5. 3T-MRIs were performed at 30weeks PMA and at term. Specific features were extracted to assess EEG maturation: (1) the spectral content, (2) the continuity [percentage of spontaneous activity transients (SAT%) and the interburst interval (IBI)], and (3) the complexity. Automatic MRI segmentation to assess volumes and MRI score was performed. The relationship between the maturational EEG features and MRI measures was investigated. Results Both SAT% and EEG complexity were correlated with PMA. IBI was inversely associated with PMA. Complexity features had a positive correlation with the cerebellar size at 30weeks, while event-based measures were related to the cerebellar size at term. Cerebellar width, cortical grey matter, and total brain volume at term were inversely correlated with the relative power in the higher frequency bands. Conclusions The continuity and complexity of the EEG steadily increase with increasing postnatal age. Increasing complexity and event-based features are associated with cerebellar size, a structure with enormous development during preterm life. Brain activity is important for later structural brain development.

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Section: Introductionmentioning

confidence: 99%

Relationship Between Early Functional and Structural Brain Developments and Brain Injury in Preterm Infants

Wel¹,

Huffel²,

Lavanga³

et al. 2021

Cerebellum

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“…This might be due to substantial differences in the assessment and analyses methods of aEEG recordings, analysed aEEG time points as well as outcome measurements and compositions of combined outcomes. In line with our aEEG assessment methods Bruns et al (17) and Huning et al (28) used the total maturity score by Burdjalov et al(5) and the background pattern assessment by Hellstrom-Westas et al (2), whereas others (12) applied different aEEG background scoring systems (29) as well as quantitative analysis methods such as interburst intervals (13) and dichotomized aEEG tracings into normal and abnormal (12, 14) patterns. This substantial variability in aEEG analysis methods hampers the comparability among studies and with our results.…”

Section: Discussionmentioning

confidence: 98%

Association between development of early cortical activity on amplitude-integrated EEG and 5-years neurodevelopmental outcome in the preterm infant

Feldmann

Rousson

Nguyen

et al. 2019

Preprint

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Aim:To analyse the association between early aEEG and cognitive outcome at early schoolage in very preterm infants.Methods: Prospective cohort study including infants with gestational age (GA) <32.0 weeks, undergoing continuous aEEG recording during first 4 days of life. Semiquantitative and quantitative (maximum/minimum amplitude) measures were averaged over the recording period. Cognitive outcome was assessed with the Kaufman-Assessment Battery for Children at 5 years of age. Uni-and multivariate logistic regressions were calculated between aEEG parameters and normal cognitive outcome (IQ≥85). Results: Among 118 monitored preterm children, 89 were assessed at median(IQR) corrected age of 68.6 months (65.5-71.2) [48% female, median(IQR) GA 29.9(28.2,30.9) weeks, mean(SD) birth weight 1235(363) grams]. Mean(SD) IQ was 97.8(12.7). IQ<85 occurred in 21.3 %, cerebral palsy was found in 2.2%. Despite univariate associations of total maturity scores, cycling subscores, background pattern and minimum aEEG amplitude with normal cognitive outcome none of the associations remained significant after adjustment for confounders. Socioeconomic status was identified as independent predictor of neurodevelopmental outcome. Conclusion:In this cohort of very preterm infants, early short-term aEEG was not predictive of later cognitive outcome. Further research is needed to explore how aEEG could help to inform long-term prognosis in this population group. Key notes• Preterm born infants are at high risk for neurodevelopmental impairment.• Early amplitude integrated electroencephalography characteristics are univariately associated with cognitive outcome at 5 years of age in preterm born children.• However, socioeconomic factors and neonatal morbidity were stronger predictors of long-term neurodevelopmental outcome than early aEEG measures.

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“…This might be due to substantial differences in the assessment and analysis methods of aEEG recordings, analysed aEEG time points, outcome measurements and compositions of combined outcomes. In line with our aEEG assessment methods, Huning et al used the total maturity score by Burdjalov et al and the background pattern assessment by Hellstrom‐Westas et al, whereas others applied different aEEG background scoring systems and quantitative analysis methods such as interburst intervals, and dichotomised aEEG tracings into normal and abnormal patterns. This substantial variability in aEEG analysis methods hampers the comparability among studies, and with our results.…”

Section: Discussionmentioning

confidence: 99%

Cognitive outcome of early school‐aged children born very preterm is not predicted by early short‐term amplitude‐integrated electroencephalography

et al. 2019

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Aim We investigated the association between early amplitude‐integrated electroencephalography (aEEG) and cognitive outcome in very preterm infants at early school‐age. Methods This prospective cohort study, conducted in the Department of Neonatology, University Hospital Zurich, Switzerland, from 2009 to 2012, comprised of infants born at <32 weeks of gestation, who underwent continuous aEEG recording during the first 4 days of life. Cognitive outcome was assessed with the Kaufman‐Assessment Battery for Children at 5 years. Univariate and multivariate logistic regressions were calculated between aEEG parameters and normal cognitive outcome, defined as an intelligence quotient (IQ) of at least 85. Results The 118 (52.5% male) infants were born at a mean gestational age of 29.9 weeks and a mean birth weight of 1235 ± 363 g. We followed up 89 children at the age of five, and they had a mean IQ of 97.8 ± 12.7 with 21.3% under 85—and 2.2% had cerebral palsy. Univariate analyses found associations between aEEG measures and normal cognitive outcome, but these were no longer significant after adjustment for confounders. Socioeconomic status and neonatal morbidity were independent predictors of cognitive outcome. Conclusion Early short‐term aEEG did not predict later cognitive outcome in our cohort of very preterm infants.

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Relationship between brain function (aEEG) and brain structure (MRI) and their predictive value for neurodevelopmental outcome of preterm infants

Cited by 33 publications

References 38 publications

Relationship Between Early Functional and Structural Brain Developments and Brain Injury in Preterm Infants

Relationship Between Early Functional and Structural Brain Developments and Brain Injury in Preterm Infants

Association between development of early cortical activity on amplitude-integrated EEG and 5-years neurodevelopmental outcome in the preterm infant

Cognitive outcome of early school‐aged children born very preterm is not predicted by early short‐term amplitude‐integrated electroencephalography

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