Department of Applied Mathematics, Yazd University, Yazd, Iran.
Department of Biomedical Engineering, University of Isfahan, Isfahan, Iran.
IET Syst Biol. 2017 Feb;11(1):19-29. doi: 10.1049/iet-syb.2016.0014.
Deep brain stimulation (DBS) is an efficient therapy to control movement disorders of Parkinson's tremor. Stimulation of one area of basal ganglia (BG) by DBS with no feedback is the prevalent opinion. Reduction of additional stimulatory signal delivered to the brain is the advantage of using feedback. This results in reduction of side effects caused by the excessive stimulation intensity. In fact, the stimulatory intensity of controllers is decreased proportional to reduction of hand tremor. The objective of this study is to design a new controller structure to decrease three indicators: (i) the hand tremor; (ii) the level of delivered stimulation in disease condition; and (iii) the ratio of the level of delivered stimulation in health condition to disease condition. For this purpose, the authors offer a new closed-loop control structure to stimulate two areas of BG simultaneously. One area (STN: subthalamic nucleus) is stimulated by an adaptive controller with feedback error learning. The other area (GPi: globus pallidus internal) is stimulated by a partial state feedback (PSF) controller. Considering the three indicators, the results show that, stimulating two areas simultaneously leads to better performance compared with stimulating one area only. It is shown that both PSF and adaptive controllers are robust regarding system parameter uncertainties. In addition, a method is proposed to update the parameters of the BG model in real time. As a result, the parameters of the controllers can be updated based on the new parameters of the BG model.
深部脑刺激(DBS)是一种有效的治疗方法,可以控制帕金森震颤的运动障碍。通过 DBS 对基底神经节(BG)的一个区域进行无反馈刺激是目前的主流观点。使用反馈可以减少传递给大脑的额外刺激信号,从而减少过度刺激强度引起的副作用。事实上,控制器的刺激强度与手震颤的减少成正比。本研究的目的是设计一种新的控制器结构,以降低三个指标:(i)手部震颤;(ii)疾病状态下的刺激水平;(iii)健康状态下的刺激水平与疾病状态下的刺激水平之比。为此,作者提出了一种新的闭环控制结构,以同时刺激 BG 的两个区域。一个区域(STN:丘脑底核)由具有反馈误差学习的自适应控制器刺激。另一个区域(GPi:苍白球内部)由部分状态反馈(PSF)控制器刺激。考虑到这三个指标,结果表明,与仅刺激一个区域相比,同时刺激两个区域可获得更好的性能。结果表明,PSF 和自适应控制器对于系统参数不确定性都是鲁棒的。此外,还提出了一种实时更新 BG 模型参数的方法。因此,可以根据 BG 模型的新参数更新控制器的参数。