Hotchkiss Brain Institute, Cumming School of Medicine, University of Calgary, Calgary, Alberta, Canada.
Seaman Family MR Research Centre, Foothills Medical Centre, Calgary, Alberta, Canada.
Epilepsia. 2024 Sep;65(9):2764-2776. doi: 10.1111/epi.18071. Epub 2024 Aug 5.
To use intracranial electroencephalography (EEG) to characterize functional magnetic resonance imaging (fMRI) activation maps associated with high-frequency oscillations (HFOs) (80-250 Hz) and examine their proximity to HFO- and seizure-generating tissue.
Forty-five patients implanted with intracranial depth electrodes underwent a simultaneous EEG-fMRI study at 3 T. HFOs were detected algorithmically from cleaned EEG and visually confirmed by an experienced electroencephalographer. HFOs that co-occurred with interictal epileptiform discharges (IEDs) were subsequently identified. fMRI activation maps associated with HFOs were generated that occurred either independently of IEDs or within ±200 ms of an IED. For all significant analyses, the Maximum, Second Maximum, and Closest activation clusters were identified, and distances were measured to both the electrodes where the HFOs were observed and the electrodes involved in seizure onset.
We identified 108 distinct groups of HFOs from 45 patients. We found that HFOs with IEDs produced fMRI clusters that were closer to the local field potentials of the corresponding HFOs observed within the EEG than HFOs without IEDs. In addition to the fMRI clusters being closer to the location of the EEG correlate, HFOs with IEDs generated Maximum clusters with greater z-scores and larger volumes than HFOs without IEDs. We also observed that HFOs with IEDs resulted in more discrete activation maps.
Intracranial EEG-fMRI can be used to probe the hemodynamic response to HFOs. The hemodynamic response associated with HFOs that co-occur with IEDs better identifies known epileptic tissue than HFOs that occur independently.
利用颅内脑电图(EEG)对与高频振荡(HFOs)(80-250 Hz)相关的功能磁共振成像(fMRI)激活图进行特征描述,并研究其与 HFO 和致痫组织的接近程度。
45 名接受颅内深部电极植入的患者在 3T 下进行同步 EEG-fMRI 研究。通过算法从清洁后的 EEG 中检测到 HFOs,并由经验丰富的脑电图专家进行视觉确认。随后识别出与间发性癫痫样放电(IEDs)同时发生的 HFOs。生成与 HFO 相关的 fMRI 激活图,这些 HFO 要么独立于 IEDs 发生,要么在 IED 前后 200ms 内发生。对于所有显著分析,确定了最大、第二大、最近的激活簇,并测量了与观察到 HFO 的电极以及与癫痫发作起始相关的电极之间的距离。
我们从 45 名患者中识别出 108 组不同的 HFO 。我们发现,与 IEDs 相关的 HFOs 产生的 fMRI 簇比没有 IEDs 的 HFOs 更接近 EEG 中观察到的相应 HFO 的局部场电位。除了 fMRI 簇更接近 EEG 相关物的位置外,与 IEDs 相关的 HFOs 生成的最大簇具有更高的 z 分数和更大的体积,比没有 IEDs 的 HFOs 更大。我们还观察到,与 IEDs 相关的 HFOs 导致更离散的激活图。
颅内 EEG-fMRI 可用于探测 HFO 的血液动力学反应。与 IEDs 同时发生的 HFO 的血液动力学反应比独立发生的 HFO 更能识别已知的癫痫组织。
