Association of Cerebral and Systemic Physiology With Quantitative Electroencephalographic Characteristics of Early Posttraumatic Seizures.

IF 4.7 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-01 Epub Date: 2022-08-23 DOI:10.1097/WNP.0000000000000965

Brian L Appavu, Jordana Fox, Michael Kuwabara, Brian T Burrows, M 'Hamed Temkit, Phillip D Adelson

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Abstract

Purpose: Early posttraumatic seizures (EPTS) occur after pediatric traumatic brain injury and have been associated with unfavorable outcomes. We aimed to characterize the relationship among quantitative EEG characteristics of early posttraumatic seizures, cerebral and somatic physiologic measures.

Methods: Differences in baseline physiologic, neuroimaging, and demographic characteristics between those with and without early posttraumatic seizures were investigated using Mann-Whitney U test or Fisher exact test. Multivariable dynamic structural equations modeling was used to investigate time series associations between ictal quantitative EEG characteristics with intracranial pressure, arterial blood pressure, heart rate (HR), and cerebral regional oximetry. Quantitative EEG characteristics included amplitude, total power, spectral edge frequency, peak value frequency, complexity, and periodicity.

Results: Among 72 children, 146 seizures were identified from 19 patients. Early posttraumatic seizures were associated with younger age ( P = 0.0034), increased HR ( P = 0.0018), and increased Glasgow Outcome Scale-Extended scores ( P = 0.0377). Group dynamic structural equations modeling analysis of the first seizure for patients demonstrated that intracranial pressure is negatively associated with spectral edge frequency (standardized regression coefficient -0.12, 99% credible interval [-0.21 to -0.04]), and HR is positively associated with peak value frequency (standardized regression coefficient 0.16, [0.00-0.31]). Among nine patients with seizures arising over the frontal lobe regions, HR was positively associated with peak value frequency (standardized regression coefficient 0.26 [0.02-0.50]) and complexity (standardized regression coefficient 0.14 [0.03-0.26]). Variation in strength and direction of associations was observed between subjects for relationships that were significant during group analysis.

Conclusions: Quantitative EEG characteristics of pediatric early posttraumatic seizures are associated with variable changes in cerebral and systemic physiology, with spectral edge frequency negatively associated with intracranial pressure and peak value frequency positively associated with HR.

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大脑和全身生理学与创伤后早期癫痫发作的定量脑电图特征之间的联系

目的：小儿创伤性脑损伤后会出现早期创伤后癫痫发作（EPTS），并与不良预后有关。我们旨在描述早期创伤后癫痫发作的脑电图定量特征与大脑和躯体生理指标之间的关系：采用 Mann-Whitney U 检验或费雪精确检验法调查了创伤后早期癫痫发作患者与未发作患者在基线生理特征、神经影像学特征和人口统计学特征方面的差异。采用多变量动态结构方程模型研究发作期定量脑电图特征与颅内压、动脉血压、心率（HR）和脑区血氧饱和度之间的时间序列关联。脑电图定量特征包括振幅、总功率、频谱边缘频率、峰值频率、复杂性和周期性：在 72 名儿童中，有 19 名患者的 146 次癫痫发作被确认。创伤后早期癫痫发作与年龄较小（P = 0.0034）、心率增快（P = 0.0018）和格拉斯哥结果量表扩展评分增高（P = 0.0377）有关。对患者首次癫痫发作的分组动态结构方程建模分析表明，颅内压与频谱边缘频率呈负相关（标准化回归系数为-0.12，99%可信区间为[-0.21至-0.04]），而心率与峰值频率呈正相关（标准化回归系数为0.16，[0.00-0.31]）。在额叶区域出现癫痫发作的 9 名患者中，HR 与峰值频率（标准化回归系数为 0.26 [0.02-0.50]）和复杂性（标准化回归系数为 0.14 [0.03-0.26]）呈正相关。在进行分组分析时，观察到不同受试者之间的相关关系在强度和方向上存在差异：结论：小儿早期创伤后癫痫发作的脑电图定量特征与大脑和全身生理学的不同变化有关，频谱边缘频率与颅内压呈负相关，峰值频率与心率呈正相关。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464

期刊介绍： ACS Applied Bio Materials is an interdisciplinary journal publishing original research covering all aspects of biomaterials and biointerfaces including and beyond the traditional biosensing, biomedical and therapeutic applications. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important bio applications. The journal is specifically interested in work that addresses the relationship between structure and function and assesses the stability and degradation of materials under relevant environmental and biological conditions.