七氟醚诱导的高频振荡、有效连通性与癫痫脑区的术中分类。
Sevoflurane-induced high-frequency oscillations, effective connectivity and intraoperative classification of epileptic brain areas.
机构信息
Department of Pediatrics, Children's Hospital of Michigan, Detroit Medical Center,Wayne State University, Detroit, MI 48201, USA; Department of Physiology, Wayne State University, Detroit, MI 48201, USA.
Department of Pediatrics, Children's Hospital of Michigan, Detroit Medical Center,Wayne State University, Detroit, MI 48201, USA; Department of Neurosurgery, Yokohama City University Graduate School of Medicine, Yokohama 2360004, Japan.
出版信息
Clin Neurophysiol. 2023 Jun;150:17-30. doi: 10.1016/j.clinph.2023.03.004. Epub 2023 Mar 17.
OBJECTIVE
To determine how sevoflurane anesthesia modulates intraoperative epilepsy biomarkers on electrocorticography, including high-frequency oscillation (HFO) effective connectivity (EC), and to investigate their relation to epileptogenicity and anatomical white matter.
METHODS
We studied eight pediatric drug-resistant focal epilepsy patients who achieved seizure control after invasive monitoring and resective surgery. We visualized spatial distributions of the electrocorticography biomarkers at an oxygen baseline, three time-points while sevoflurane was increasing, and at a plateau of 2 minimum alveolar concentration (MAC) sevoflurane. HFO EC was combined with diffusion-weighted imaging, in dynamic tractography.
RESULTS
Intraoperative HFO EC diffusely increased as a function of sevoflurane concentration, although most in epileptogenic sites (defined as those included in the resection); their ability to classify epileptogenicity was optimized at sevoflurane 2 MAC. HFO EC could be visualized on major white matter tracts, as a function of sevoflurane level.
CONCLUSIONS
The results strengthened the hypothesis that sevoflurane-activated HFO biomarkers may help intraoperatively localize the epileptogenic zone.
SIGNIFICANCE
Our results help characterize how HFOs at non-epileptogenic and epileptogenic networks respond to sevoflurane. It may be warranted to establish a normative HFO atlas incorporating the modifying effects of sevoflurane and major white matter pathways, as critical reference in epilepsy presurgical evaluation.
目的
确定七氟醚麻醉如何调节皮质脑电图中的术中癫痫生物标志物,包括高频振荡(HFO)有效连通性(EC),并研究其与致痫性和解剖性白质的关系。
方法
我们研究了 8 例经有创监测和切除性手术治疗后癫痫得到控制的儿童耐药性局灶性癫痫患者。我们在基线氧合水平、七氟醚浓度增加时的三个时间点以及 2 个最低肺泡浓度(MAC)七氟醚平台上可视化皮质脑电图生物标志物的空间分布。将 HFO EC 与扩散加权成像相结合,在动态轨迹中进行。
结果
尽管大多数在致痫区(定义为包含在切除区的部位)中,七氟醚浓度的增加与术中 HFO EC 弥漫性增加有关;在七氟醚 2 MAC 时,其分类致痫性的能力得到优化。HFO EC 可作为七氟醚水平的函数,在主要白质束上可视化。
结论
结果强化了七氟醚激活的 HFO 生物标志物可能有助于术中定位致痫区的假说。
意义
我们的结果有助于描述非致痫性和致痫性网络中的 HFO 如何对七氟醚做出反应。有必要建立一个包含七氟醚和主要白质通路的修正效应的 HFO 图谱,作为癫痫术前评估的关键参考。
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