Neurophysiologic Characteristics of the Anterior Nucleus of the Thalamus during Deep Brain Stimulation Surgery for Epilepsy.

IF 1.9 4区 医学 Q3 NEUROIMAGING
Stereotactic and Functional Neurosurgery Pub Date : 2024-01-01 Epub Date: 2024-07-15 DOI:10.1159/000539398
Megan V Ryan, David Satzer, Steven G Ojemann, Daniel R Kramer, John A Thompson
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引用次数: 0

Abstract

Introduction: Anterior nucleus of the thalamus (ANT) deep brain stimulation (DBS) is an increasingly promising treatment option for refractory epilepsy. Optimal therapeutic benefit has been associated with stimulation at the junction of ANT and the mammillothalamic tract (mtt), but electrophysiologic markers of this target are lacking. The present study examined microelectrode recordings (MER) during DBS to identify unique electrophysiologic characteristics of ANT and the ANT-mtt junction.

Methods: Ten patients with medically refractory epilepsy underwent MER during ANT-DBS implantation under general anesthesia. MER locations were determined based on coregistration of preoperative MRI, postoperative CT, and a stereotactic atlas of the thalamus (Morel atlas). Several neurophysiological parameters including single unit spiking rate, bursting properties, theta and alpha power and cerebrospinal fluid (CSF)-normalized root mean square (NRMS) of multiunit activity were characterized at recording depths and compared to anatomic boundaries.

Results: From sixteen hemispheres, 485 recordings locations were collected from a mean of 30.3 (15.64 ± 5.0 mm) recording spans. Three-hundred and ninety-four of these recording locations were utilized further for analysis of spiking and bursting rates, after excluding recordings that were more than 8 mm above the putative ventral ANT border. The ANT region exhibited discernible features including: (1) mean spiking rate (7.52 Hz ± 6.9 Hz; one-way analysis of variance test, p = 0.014 when compared to mediodorsal nucleus of the thalamus [MD], mtt, and CSF), (2) the presence of bursting activity with 40% of ANT locations (N = 59) exhibited bursting versus 24% the mtt (χ2; p < 0.001), and 32% in the MD (p = 0.38), (3) CSF-NRMS, a proxy for neuronal density, exhibited well demarcated changes near the entry and exit of ANT (linear regression, R = -0.33, p < 0.001). Finally, in the ANT, both theta (4-8 Hz) and alpha band power (9-12 Hz) were negatively correlated with distance to the ventral ANT border (linear regression, p < 0.001 for both). The proportion of recordings with spiking and bursting activity was consistently highest 0-2 mm above the ventral ANT border with the mtt.

Conclusion: We observed several electrophysiological markers demarcating the ANT superior and inferior borders including multiple single cell and local field potential features. A local maximum in neural activity just above the ANT-mtt junction was consistent with the previously described optimal target for seizure reduction. These features may be useful for successful targeting of ANT-DBS for epilepsy.

脑深部刺激手术治疗癫痫期间丘脑前核的神经生理学特征
简介:丘脑前核(ANT)深部脑刺激(DBS)是一种越来越有前景的治疗难治性癫痫的方法。最佳治疗效果与刺激丘脑前核和乳突丘脑束(mtt)交界处有关,但该靶点的电生理学指标尚缺。本研究检查了 DBS 期间的微电极记录(MER),以确定 ANT 和 ANT-mtt 交界处的独特电生理特征:方法:10 名药物难治性癫痫患者在全身麻醉的情况下接受了 ANT-DBS 植入过程中的微电极记录。MER 的位置是根据术前 MRI、术后 CT 和丘脑立体定向图谱(Morel 图谱)的核心注册确定的。记录深度的几个神经生理学参数包括单单元尖峰率、爆发特性、θ和α功率以及多单元活动的脑脊液(CSF)归一化均方根(NRMS),并与解剖边界进行比较:从 16 个半球的平均 30.3(15.64 ± 5.0 毫米)记录跨度中收集了 485 个记录位置。在排除了距ANT腹侧边界8毫米以上的记录后,对其中的394个记录点进行了进一步的尖峰和爆发率分析。ANT区域表现出明显的特征,包括:(1)平均尖峰率(7.52 Hz ± 6.9 Hz;与丘脑内侧核[MD]、mtt和CSF相比,单向方差分析检验,p = 0.014);(2)存在爆发活动,40%的ANT位置(N = 59)表现出爆发活动,而mtt为24%(χ2;p < 0.001),而在 MD 中为 32%(p = 0.38);(3)CSF-NRMS(神经元密度的替代物)在 ANT 入口和出口附近表现出界限分明的变化(线性回归,R = -0.33,p <0.001)。最后,在 ANT 中,θ(4-8 Hz)和α波段功率(9-12 Hz)与 ANT 腹侧边界的距离呈负相关(线性回归,两者的 p 均为 0.001)。使用 mtt 时,在 ANT 腹侧边界上方 0-2 mm 处记录的尖峰和爆发活动比例始终最高:我们观察到了几个划分 ANT 上下边界的电生理标记,包括多个单细胞和局部场电位特征。ANT-mtt交界处上方的局部神经活动最大值与之前描述的减少癫痫发作的最佳目标一致。这些特征可能有助于成功定位 ANT-DBS 治疗癫痫。
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来源期刊
CiteScore
3.80
自引率
0.00%
发文量
33
审稿时长
3 months
期刊介绍: ''Stereotactic and Functional Neurosurgery'' provides a single source for the reader to keep abreast of developments in the most rapidly advancing subspecialty within neurosurgery. Technological advances in computer-assisted surgery, robotics, imaging and neurophysiology are being applied to clinical problems with ever-increasing rapidity in stereotaxis more than any other field, providing opportunities for new approaches to surgical and radiotherapeutic management of diseases of the brain, spinal cord, and spine. Issues feature advances in the use of deep-brain stimulation, imaging-guided techniques in stereotactic biopsy and craniotomy, stereotactic radiosurgery, and stereotactically implanted and guided radiotherapeutics and biologicals in the treatment of functional and movement disorders, brain tumors, and other diseases of the brain. Background information from basic science laboratories related to such clinical advances provides the reader with an overall perspective of this field. Proceedings and abstracts from many of the key international meetings furnish an overview of this specialty available nowhere else. ''Stereotactic and Functional Neurosurgery'' meets the information needs of both investigators and clinicians in this rapidly advancing field.
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