A novel method for electroencephalography background analysis in neonates with hypoxic-ischemic encephalopathy / 中国当代儿科杂志

OBJECTIVES@#To explore a new method for electroencephalography (EEG) background analysis in neonates with hypoxic-ischemic encephalopathy (HIE) and its relationship with clinical grading and head magnetic resonance imaging (MRI) grading.@*METHODS@#A retrospective analysis was performed for the video electroencephalography (vEEG) and amplitude-integrated electroencephalography (aEEG) monitoring data within 24 hours after birth of neonates diagnosed with HIE from January 2016 to August 2022. All items of EEG background analysis were enrolled into an assessment system and were scored according to severity to obtain the total EEG score. The correlations of total EEG score with total MRI score and total Sarnat score (TSS, used to evaluate clinical gradings) were analyzed by Spearman correlation analysis. The total EEG score was compared among the neonates with different clinical gradings and among the neonates with different head MRI gradings. The receiver operating characteristic (ROC) curve and the area under thecurve (AUC) were used to evaluate the value of total EEG score in diagnosing moderate/severe head MRI abnormalities and clinical moderate/severe HIE, which was then compared with the aEEG grading method.@*RESULTS@#A total of 50 neonates with HIE were included. The total EEG score was positively correlated with the total head MRI score and TSS (rs=0.840 and 0.611 respectively, P<0.001). There were significant differences in the total EEG score between different clinical grading groups and different head MRI grading groups (P<0.05). The total EEG score and the aEEG grading method had an AUC of 0.936 and 0.617 respectively in judging moderate/severe head MRI abnormalities (P<0.01) and an AUC of 0.887 and 0.796 respectively in judging clinical moderate/severe HIE (P>0.05). The total EEG scores of ≤6 points, 7-13 points, and ≥14 points were defined as mild, moderate, and severe EEG abnormalities respectively, which had the best consistency with clinical grading and head MRI grading (P<0.05).@*CONCLUSIONS@#The new EEG background scoring method can quantitatively reflect the severity of brain injury and can be used for the judgment of brain function in neonates with HIE.

Mecanismos de lesión cerebral en niños prematuros / Mechanisms of brain injury of the premature baby

Los nacimientos prematuros son uno de los principales indicadores de salud de un país. Están asociados a una alta mortalidad e importante morbilidad en niños con parálisis cerebral y otros trastornos del neurodesarrollo, incluyendo problemas cognitivos y del aprendizaje. Los principales tipos de lesión encefálica en los recién nacidos prematuros son: a) las lesiones de la sustancia blanca, generalmente asociadas a alteraciones neuronales y axonales en la corteza cerebral y otras zonas de sustancia gris; b) hemorragias intracraneanas que incluyen las de la matriz germinal, intraventriculares e intraparenquimatosas y c) del cerebelo. Las lesiones de sustancia blanca incluyen la leucomalacia periventricular quística, no quística (con focos de necrosis microscópicos) y lesiones difusas de sustancia blanca, no necróticas. Estas lesiones tienen múltiples factores etiológicos. Las características anatómicas y fisiológicas de las estructuras vasculares periventriculares predisponen a la sustancia blanca a ser muy vulnerable a las situaciones de isquemia cerebral y, en interacción con factores infecciosos/inflamatorios, activan a las microglías generando estrés oxidativo (por liberación de radicales libres del oxígeno y del nitrógeno), liberación de citoquinas proinflamatorias, liberación de glutamato, fallo energético y alteración de la integridad vascular. Todo lo anteriormente mencionado genera una particular vulnerabilidad de los pre-oligodendrocitos que termina alterando la mielinización. La hipoxia-isquemia también puede producir necrosis neuronal selectiva en diferentes regiones encefálicas. La matriz germinal es un área altamente vascularizada en la región subependimaria periventricular con una estructura capilar muy frágil que la predispone a las hemorragias.

Preterm birth is one of the main country health indicators. It is associated with high mortality and significant morbidity in preterm newborns with cerebral palsy and potential long-term neurodevelopmental disabilities like cognitive and learning problems. The main lesions could be: a) white matter injuries, generally associated with cortical and other regions of grey matter neuronal-axonal disturbances; b) intracranial hemorrhage that includes germinal matrix, intraventricular and parenchymal, c) cerebellum injuries. The white matter lesions include cystic and non-cystic (with microscopic focal necrosis) periventricular leukomalacia and non-necrotic diffuse white matter injury. Multiple etiologic factors are associated with these injuries. Anatomical and physiological characteristics of periventricular vascular structures predispose white matter to cerebral ischemia and, interacting with infection/inflammation factors, activate microglia, generating oxidative stress (mediated by free oxygen and nitrogen radicals), pro-inflammatory cytokine and glutamate toxicity, energetic failure and vascular integrity disturbances. All these factors lead to a particular vulnerability of pre-oligodendrocytes that will affect myelination. Hypoxia-ischemia also may produce selective neuronal necrosis in different cerebral regions. Germinal matrix is a highly vascularized zone beneath ependymal or periventricular region that constitutes a capillary bed with a particular structural fragility that predispose it to hemorrhage.