Quantitative Electroencephalography Objectivity and Reliability in the Diagnosis and Management of Traumatic Brain Injury: A Systematic Review.

Francesco Amico, Jaroslaw Lucas Koberda
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Abstract

Background. Persons with a history of traumatic brain injury (TBI) may exhibit short- and long-term cognitive deficits as well as psychiatric symptoms. These symptoms often reflect functional anomalies in the brain that are not detected by standard neuroimaging. In this context, quantitative electroencephalography (qEEG) is more suitable to evaluate non-normative activity in a wide range of clinical settings. Method. We searched the literature using the "Medline" and "Web of Science" online databases. The search was concluded on February 23, 2023, and revised on July 12, 2023. It returned 134 results from Medline and 4 from Web of Science. We then applied the PRISMA method, which led to the selection of 31 articles, the most recent one published in March 2023. Results. The qEEG method can detect functional anomalies in the brain occurring immediately after and even years after injury, revealing in most cases abnormal power variability and increases in slow (delta and theta) versus decreases in fast (alpha, beta, and gamma) frequency activity. Moreover, other findings show that reduced beta coherence between frontoparietal regions is associated with slower processing speed in patients with recent mild TBI (mTBI). More recently, machine learning (ML) research has developed highly reliable models and algorithms for the detection of TBI, some of which are already integrated into commercial qEEG equipment. Conclusion. Accumulating evidence indicates that the qEEG method may improve the diagnosis and management of TBI, in many cases revealing long-term functional anomalies in the brain or even neuroanatomical insults that are not revealed by standard neuroimaging. While FDA clearance has been obtained only for some of the commercially available equipment, the qEEG method allows for systematic, cost-effective, non-invasive, and reliable investigations at emergency departments. Importantly, the automated implementation of intelligent algorithms based on multimodally acquired, clinically relevant measures may play a key role in increasing diagnosis reliability.

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定量脑电图在创伤性脑损伤诊断和治疗中的客观性和可靠性:一项系统综述。
背景有创伤性脑损伤史的人可能会表现出短期和长期的认知缺陷以及精神症状。这些症状通常反映了标准神经成像无法检测到的大脑功能异常。在这种情况下,定量脑电图(qEEG)更适合在广泛的临床环境中评估非规范性活动。方法我们使用“Medline”和“Web of Science”在线数据库搜索文献。搜索于2023年2月23日结束,并于2023月12日进行了修订。它从Medline返回了134个结果,从Web of Science返回了4个结果。然后,我们应用PRISMA方法,选择了31篇文章,最近一篇发表在2023年3月。后果qEEG方法可以检测受伤后立即甚至数年后发生的大脑功能异常,在大多数情况下揭示异常的功率变异性,以及慢速(δ和θ)频率活动的增加与快速(α、β和γ)频率活动减少的对比。此外,其他研究结果表明,在近期轻度TBI(mTBI)患者中,额顶区域之间的β一致性降低与处理速度减慢有关。最近,机器学习(ML)研究开发了用于检测TBI的高度可靠的模型和算法,其中一些已经集成到商业qEEG设备中。结论越来越多的证据表明,qEEG方法可以改善TBI的诊断和管理,在许多情况下可以揭示大脑的长期功能异常,甚至是标准神经成像无法揭示的神经解剖学损伤。虽然美国食品药品监督管理局只批准了一些商用设备,但qEEG方法允许在急诊科进行系统、成本效益高、无创和可靠的调查。重要的是,基于多模式获取的临床相关测量的智能算法的自动实现可能在提高诊断可靠性方面发挥关键作用。
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