Effectively desynchronizing deep brain stimulation based on a coordinated delayed feedback stimulation via several sites: a computational study

Hauptmann  C; Popovych  O; Tass  PA

首页> 外文期刊>Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten >Effectively desynchronizing deep brain stimulation based on a coordinated delayed feedback stimulation via several sites: a computational study

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Effectively desynchronizing deep brain stimulation based on a coordinated delayed feedback stimulation via several sites: a computational study

机译：基于通过多个位点的协调延迟反馈刺激有效不同步深部脑刺激：一项计算研究

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In detailed simulations we present a coordinated delayed feedback stimulation as a particularly robust and mild technique for desynchronization. We feed back the measured and band-pass filtered local filed potential via several or multiple sites with different delays, respectively. This yields a resounding desynchronization in a naturally demand-controlled way. Our novel approach is superior to previously developed techniques: It is robust against variations of system parameters, e.g., the mean firing rate. It does not require time-consuming calibration. It also prevents intermittent resynchronization typically caused by all methods employing repetitive administration of shocks. We suggest our novel technique to be used for deep brain stimulation in patients suffering from neurological diseases with pathological synchronization, such as Parkinsonian tremor, essential tremor or epilepsy.

机译：在详细的模拟中，我们提出了一种协调的延迟反馈激励，作为一种特别强大和温和的不同步技术。我们分别通过具有不同延迟的几个或多个站点反馈测得的和带通滤波的局部场电位。这以一种自然的需求控制方式产生了响亮的不同步。我们的新方法优于以前开发的技术：它对系统参数的变化（例如平均点火率）具有鲁棒性。它不需要耗时的校准。它还可以防止间歇性再同步，通常由所有采用重复施用电击的方法引起。我们建议将我们的新技术用于患有病理性同步的神经系统疾病的患者的深部脑刺激，例如帕金森氏震颤、特发性震颤或癫痫。

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《Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten》 |2005年第6期|463-470|共8页
作者
Hauptmann C; Popovych O; Tass PA;
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作者单位

Res Ctr Juelich, Inst Med, D-52425 Julich, Germany;

Res Ctr Juelich, Virtual Inst Neuromodulat, D-52425 Julich, Germany;

Univ Hosp, Dept Stereotax & Funct Neurosurg, D-50924 Cologne, Germany;

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正文语种英语
中图分类理论生物物理学;
关键词
PARKINSONS-DISEASE; OSCILLATIONS; MODEL; TREMOR; NUCLEUS; NEURONS;

机译：帕金森病;振荡;型号;震颤;核;神经元;

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Effectively desynchronizing deep brain stimulation based on a coordinated delayed feedback stimulation via several sites: a computational study

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