Characterization of subthalamic nucleus deep brain stimulation evoked resonant neural activity in a large animal model: A pilot study

IF 2.7 4区 医学 Q3 NEUROSCIENCES
Kristin Hageman , Paul Stypulkowski , Scott Stanslaski
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Abstract

Recent reports have described stimulation evoked resonant neural activity (ERNA) recorded in the subthalamic nucleus (STN) and globus pallidus internus (GPi) of patients during Deep Brain Stimulation (DBS) surgery. The constraints imposed during intraoperative recordings in patients limit the opportunity for in-depth study of new findings such as ERNA. In this pilot study, we leverage a large animal model to focus on detailed characterization of ERNA. Bilateral DBS leads were implanted in the STN in three ovine subjects and externalized for chronic use with custom stimulation and recording circuitry. ERNA was reliably recorded from the STN region in all three subjects with distinct specificity to recording and stimulation sites/contacts. Basic neural response characteristics such as input/output behavior, frequency response and strength/duration curves were evaluated. ERNA amplitude was highly dependent upon stimulation frequency, due to the interaction of the underlying resonant activity and the evoked response from each stimulus pulse. The results could be predicted by a mathematical model of constructive/destructive phase interference, and importantly, the evoked response latency. Significant time dependent dynamics in these evoked potentials were observed, which will be critically important to understand for future clinical applications. Based upon these recordings from leads in the STN region of healthy ovine subjects, these data confirm that DBS evokes high frequency resonant activity in the basal ganglia network. The clinical utility of ERNA remains to be demonstrated, but its direct association with DBS therapy makes it an interesting biomarker for potential use in contact selection and closed loop therapy.

Abstract Image

眼下核深部脑刺激诱发共振神经活动在大型动物模型中的特征:试点研究
最近的报告描述了在脑深部刺激(DBS)手术中记录到的患者丘脑下核(STN)和苍白球内核(GPi)的刺激诱发共振神经活动(ERNA)。由于患者术中记录时受到限制,因此无法对 ERNA 等新发现进行深入研究。在这项试验性研究中,我们利用大型动物模型来重点研究ERNA的详细特征。我们在三只雌性受试者的 STN 中植入了双侧 DBS 导联,并将其与定制的刺激和记录电路外置,以便长期使用。所有三个受试者的 STN 区域都能可靠地记录 ERNA,记录和刺激部位/接触具有明显的特异性。对输入/输出行为、频率响应和强度/持续时间曲线等基本神经响应特征进行了评估。ERNA 振幅高度依赖于刺激频率,这是由于基本共振活动与每个刺激脉冲的诱发反应相互作用所致。这些结果可以通过一个建构/破坏性相位干扰数学模型来预测,重要的是可以通过诱发反应潜伏期来预测。在这些诱发电位中观察到了显著的时变动态,这对了解未来的临床应用至关重要。根据对健康绵羊 STN 区导联的记录,这些数据证实了 DBS 可诱发基底节网络的高频共振活动。ERNA的临床实用性还有待证实,但它与DBS疗法的直接联系使其成为一种有趣的生物标志物,有望用于接触选择和闭环疗法。
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来源期刊
Brain Research
Brain Research 医学-神经科学
CiteScore
5.90
自引率
3.40%
发文量
268
审稿时长
47 days
期刊介绍: An international multidisciplinary journal devoted to fundamental research in the brain sciences. Brain Research publishes papers reporting interdisciplinary investigations of nervous system structure and function that are of general interest to the international community of neuroscientists. As is evident from the journals name, its scope is broad, ranging from cellular and molecular studies through systems neuroscience, cognition and disease. Invited reviews are also published; suggestions for and inquiries about potential reviews are welcomed. With the appearance of the final issue of the 2011 subscription, Vol. 67/1-2 (24 June 2011), Brain Research Reviews has ceased publication as a distinct journal separate from Brain Research. Review articles accepted for Brain Research are now published in that journal.
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