系统探究影响癫痫患者诱发性颅内电位的参数。

A systematic exploration of parameters affecting evoked intracranial potentials in patients with epilepsy.

机构信息

Department of Neurosurgery, Clinical Neurosciences Center, University of Utah, Salt Lake City, UT, USA.

Department of Biomedical Engineering, University of Utah, Salt Lake City, UT, USA.

出版信息

Brain Stimul. 2020 Sep-Oct;13(5):1232-1244. doi: 10.1016/j.brs.2020.06.002. Epub 2020 Jun 3.

DOI:10.1016/j.brs.2020.06.002

PMID:32504827

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7494632/

Abstract

BACKGROUND

Brain activity is constrained by and evolves over a network of structural and functional connections. Corticocortical evoked potentials (CCEPs) have been used to measure this connectivity and to discern brain areas involved in both brain function and disease. However, how varying stimulation parameters influences the measured CCEP across brain areas has not been well characterized.

OBJECTIVE

To better understand the factors that influence the amplitude of the CCEPs as well as evoked gamma-band power (70-150 Hz) resulting from single-pulse stimulation via cortical surface and depth electrodes.

METHODS

CCEPs from 4370 stimulation-response channel pairs were recorded across a range of stimulation parameters and brain regions in 11 patients undergoing long-term monitoring for epilepsy. A generalized mixed-effects model was used to model cortical response amplitudes from 5 to 100 ms post-stimulation.

RESULTS

Stimulation levels <5.5 mA generated variable CCEPs with low amplitude and reduced spatial spread. Stimulation at ≥5.5 mA yielded a reliable and maximal CCEP across stimulation-response pairs over all regions. These findings were similar when examining the evoked gamma-band power. The amplitude of both measures was inversely correlated with distance. CCEPs and evoked gamma power were largest when measured in the hippocampus compared with other areas. Larger CCEP size and evoked gamma power were measured within the seizure onset zone compared with outside this zone.

CONCLUSION

These results will help guide future stimulation protocols directed at quantifying network connectivity across cognitive and disease states.

摘要

背景

大脑活动受到结构和功能连接网络的限制和演变。皮质皮质诱发电位 (CCEPs) 已被用于测量这种连通性，并辨别参与大脑功能和疾病的大脑区域。然而，不同的刺激参数如何影响跨大脑区域测量的 CCEP 尚未得到很好的描述。

目的

更好地了解影响 CCEPs 幅度的因素，以及通过皮质表面和深部电极进行单脉冲刺激产生的诱发伽马频带功率（70-150 Hz）。

方法

在 11 名接受长期癫痫监测的患者中，记录了一系列刺激参数和大脑区域的 4370 个刺激-反应通道对的 CCEPs。使用广义混合效应模型来模拟刺激后 5 到 100 毫秒的皮质反应幅度。

结果

<5.5 mA 的刺激水平产生的 CCEP 具有低幅度和减少的空间传播。在≥5.5 mA 的刺激下，在所有区域中，刺激-反应对之间产生了可靠的和最大的 CCEP。当检查诱发的伽马频带功率时，也发现了类似的结果。这两种测量的幅度都与距离成反比。与其他区域相比，在海马体中测量时，CCEP 和诱发的伽马功率最大。与该区域外相比，在癫痫发作起始区内部测量时，CCEP 尺寸和诱发的伽马功率更大。

结论

这些结果将有助于指导未来的刺激方案，旨在量化认知和疾病状态下的网络连通性。

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