EEG slow waves in traumatic brain injury: Convergent findings in mouse and man

Q2 Medicine
Mo H. Modarres , Nicholas N. Kuzma , Tracy Kretzmer , Allan I. Pack , Miranda M. Lim
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引用次数: 49

Abstract

Objective

Evidence from previous studies suggests that greater sleep pressure, in the form of EEG-based slow waves, accumulates in specific brain regions that are more active during prior waking experience. We sought to quantify the number and coherence of EEG slow waves in subjects with mild traumatic brain injury (mTBI).

Methods

We developed a method to automatically detect individual slow waves in each EEG channel, and validated this method using simulated EEG data. We then used this method to quantify EEG-based slow waves during sleep and wake states in both mouse and human subjects with mTBI. A modified coherence index that accounts for information from multiple channels was calculated as a measure of slow wave synchrony.

Results

Brain-injured mice showed significantly higher theta:alpha amplitude ratios and significantly more slow waves during spontaneous wakefulness and during prolonged sleep deprivation, compared to sham-injured control mice. Human subjects with mTBI showed significantly higher theta:beta amplitude ratios and significantly more EEG slow waves while awake compared to age-matched control subjects. We then quantified the global coherence index of slow waves across several EEG channels in human subjects. Individuals with mTBI showed significantly less EEG global coherence compared to control subjects while awake, but not during sleep. EEG global coherence was significantly correlated with severity of post-concussive symptoms (as assessed by the Neurobehavioral Symptom Inventory scale).

Conclusion and implications

Taken together, our data from both mouse and human studies suggest that EEG slow wave quantity and the global coherence index of slow waves may represent a sensitive marker for the diagnosis and prognosis of mTBI and post-concussive symptoms.

Abstract Image

Abstract Image

Abstract Image

外伤性脑损伤的脑电图慢波:小鼠和人的趋同发现
先前的研究证据表明,更大的睡眠压力,以脑电图慢波的形式,在大脑的特定区域积累,这些区域在之前的清醒经历中更活跃。我们试图量化轻度创伤性脑损伤(mTBI)受试者的脑电图慢波的数量和一致性。方法提出了一种自动检测脑电信号各通道慢波的方法,并用模拟脑电信号数据对该方法进行了验证。然后,我们用这种方法量化了mTBI小鼠和人类受试者睡眠和清醒状态时基于脑电图的慢波。计算了一个改进的相干指数,该指数考虑了来自多个信道的信息,作为慢波同步的度量。结果与假损伤小鼠相比,脑损伤小鼠在自发清醒和长时间睡眠剥夺期间表现出更高的θ: α振幅比和更多的慢波。与年龄匹配的对照组相比,患有mTBI的人类受试者在清醒时表现出更高的θ: β幅度比和更多的脑电图慢波。然后,我们量化了人类受试者在几个脑电图通道上慢波的全局相干指数。与对照组相比,mTBI患者在清醒状态下的脑电图整体一致性明显降低,但在睡眠状态下则不然。脑电图整体一致性与脑震荡后症状的严重程度显著相关(通过神经行为症状量表评估)。综上所述,我们的小鼠和人类研究数据表明,脑电图慢波量和慢波整体相干指数可能是mTBI和脑震荡后症状的诊断和预后的敏感指标。
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来源期刊
Neurobiology of Sleep and Circadian Rhythms
Neurobiology of Sleep and Circadian Rhythms Neuroscience-Behavioral Neuroscience
CiteScore
4.50
自引率
0.00%
发文量
9
审稿时长
69 days
期刊介绍: Neurobiology of Sleep and Circadian Rhythms is a multidisciplinary journal for the publication of original research and review articles on basic and translational research into sleep and circadian rhythms. The journal focuses on topics covering the mechanisms of sleep/wake and circadian regulation from molecular to systems level, and on the functional consequences of sleep and circadian disruption. A key aim of the journal is the translation of basic research findings to understand and treat sleep and circadian disorders. Topics include, but are not limited to: Basic and translational research, Molecular mechanisms, Genetics and epigenetics, Inflammation and immunology, Memory and learning, Neurological and neurodegenerative diseases, Neuropsychopharmacology and neuroendocrinology, Behavioral sleep and circadian disorders, Shiftwork, Social jetlag.
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