Improved Mathematical Models of Parkinson's Disease with Hopf Bifurcation and Huntington's Disease with Chaos

IF 1.4 4区 生物学 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY Acta Biotheoretica Pub Date : 2024-09-02 DOI:10.1007/s10441-024-09485-x
M. A. Elfouly
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Abstract

Using delay differential equations to study mathematical models of Parkinson's disease and Huntington's disease is important to show how important it is for synchronization between basal ganglia loops to work together. We used the delay circuit RLC (resistor, inductor, capacitor) model to show how the direct pathway and the indirect pathway in the basal ganglia excite and inhibit the motor cortex, respectively. A term has been added to the mathematical model without time delay in the case of the hyperdirect pathway. It is proposed to add a non-linear term to adjust the synchronization. We studied Hopf bifurcation conditions for the proposed models. The desynchronization of response times between the direct pathway and the indirect pathway leads to different symptoms of Parkinson's disease. Tremor appears when the response time in the indirect pathway increases at rest. The simulation confirmed that tremor occurs and the motor cortex is in an inhibited state. The direct pathway can increase the time delay in the dopaminergic pathway, which significantly increases the activity of the motor cortex. The hyperdirect pathway regulates the activity of the motor cortex. The simulation showed bradykinesia occurs when we switch from one movement to another that is less exciting for the motor cortex. A decrease of GABA in the striatum or delayed excitation of the substantia nigra from the subthalamus may be a major cause of Parkinson's disease. An increase in the response time delay in one of the pathways results in the chaotic movement characteristic of Huntington's disease.

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帕金森病与霍普夫分岔和亨廷顿病与混沌的改进数学模型。
使用延迟微分方程来研究帕金森病和亨廷顿病的数学模型,对于说明基底节环路之间的同步协同工作是多么重要。我们使用延迟电路 RLC(电阻、电感、电容)模型来说明基底节的直接通路和间接通路是如何分别兴奋和抑制运动皮层的。在超直接通路的数学模型中加入了一个无时间延迟的项。我们建议添加一个非线性项来调整同步。我们研究了拟议模型的霍普夫分岔条件。直接通路和间接通路之间反应时间的不同步会导致帕金森病的不同症状。当间接通路的反应时间在静止状态下增加时,震颤就会出现。模拟证实,震颤发生时,运动皮层处于抑制状态。直接通路可以增加多巴胺能通路的时间延迟,从而显著增加运动皮层的活动。超直接通路可调节运动皮层的活动。模拟显示,当我们从一种运动切换到另一种对运动皮层刺激较小的运动时,就会出现运动迟缓。纹状体中 GABA 的减少或来自丘脑下部的黑质兴奋延迟可能是帕金森病的主要原因。如果其中一条通路的反应时间延迟增加,就会导致亨廷顿氏病特有的混乱运动。
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来源期刊
Acta Biotheoretica
Acta Biotheoretica 生物-生物学
CiteScore
2.70
自引率
7.70%
发文量
19
审稿时长
3 months
期刊介绍: Acta Biotheoretica is devoted to the promotion of theoretical biology, encompassing mathematical biology and the philosophy of biology, paying special attention to the methodology of formation of biological theory. Papers on all kind of biological theories are welcome. Interesting subjects include philosophy of biology, biomathematics, computational biology, genetics, ecology and morphology. The process of theory formation can be presented in verbal or mathematical form. Moreover, purely methodological papers can be devoted to the historical origins of the philosophy underlying biological theories and concepts. Papers should contain clear statements of biological assumptions, and where applicable, a justification of their translation into mathematical form and a detailed discussion of the mathematical treatment. The connection to empirical data should be clarified. Acta Biotheoretica also welcomes critical book reviews, short comments on previous papers and short notes directing attention to interesting new theoretical ideas.
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