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量化基底神经节中直接和间接通路之间的协调性:健康状态与帕金森病状态。

Quantifying harmony between direct and indirect pathways in the basal ganglia: healthy and Parkinsonian states.

作者信息

Kim Sang-Yoon, Lim Woochang

机构信息

Institute for Computational Neuroscience and Department of Science Education, Daegu National University of Education, Daegu, 42411 Korea.

出版信息

Cogn Neurodyn. 2024 Oct;18(5):2809-2829. doi: 10.1007/s11571-024-10119-8. Epub 2024 May 16.

DOI:10.1007/s11571-024-10119-8
PMID:39555274
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11564607/
Abstract

The basal ganglia (BG) show a variety of functions for motor and cognition. There are two competitive pathways in the BG; direct pathway (DP) which facilitates movement and indirect pathway (IP) which suppresses movement. It is well known that diverse functions of the BG may be made through "balance" between DP and IP. But, to the best of our knowledge, so far no quantitative analysis for such balance was done. In this paper, as a first time, we introduce the competition degree between DP and IP. Then, by employing , we quantify their competitive harmony (i.e., competition and cooperative interplay), which could lead to improving our understanding of the traditional "balance" so clearly and quantitatively. We first consider the case of normal dopamine (DA) level of . In the case of phasic cortical input (10 Hz), a healthy state with (i.e., DP is 2.82 times stronger than IP) appears. In this case, normal movement occurs via harmony between DP and IP. Next, we consider the case of decreased DA level, ( ). With decreasing from 1, the competition degree between DP and IP decreases monotonically from , which results in appearance of a pathological Parkinsonian state with reduced . In this Parkinsonian state, strength of IP is much increased than that in the case of normal healthy state, leading to disharmony between DP and IP. Due to such break-up of harmony between DP and IP, impaired movement occurs. Finally, we also study treatment of the pathological Parkinsonian state via recovery of harmony between DP and IP.

摘要

基底神经节(BG)在运动和认知方面具有多种功能。BG 中存在两条相互竞争的通路;促进运动的直接通路(DP)和抑制运动的间接通路(IP)。众所周知,BG 的多种功能可能是通过 DP 和 IP 之间的“平衡”实现的。但是,据我们所知,到目前为止尚未对这种平衡进行定量分析。在本文中,我们首次引入了 DP 和 IP 之间的竞争程度。然后,通过运用[此处原文缺失具体方法内容],我们对它们的竞争协调性(即竞争与协同相互作用)进行了量化,这能够使我们更清晰、定量地增进对传统“平衡”的理解。我们首先考虑多巴胺(DA)水平正常为[此处原文缺失具体数值]的情况。在相位性皮质输入(10 赫兹)的情况下,会出现一种健康状态,即[此处原文缺失具体数值关系内容](即 DP 比 IP 强 2.82 倍)。在这种情况下,正常运动通过 DP 和 IP 之间的协调性得以发生。接下来,我们考虑多巴胺水平降低的情况,即[此处原文缺失具体数值]([此处原文缺失具体数值关系内容])。随着[此处原文缺失具体变量]从 1 降低,DP 和 IP 之间的竞争程度[此处原文缺失具体变量]从[此处原文缺失具体数值]单调下降,这导致出现一种病理性帕金森状态,其中[此处原文缺失具体数值]降低。在这种帕金森状态下,IP 的强度比正常健康状态下大幅增加,导致 DP 和 IP 之间不协调。由于 DP 和 IP 之间这种协调性的破坏,出现了运动障碍。最后,我们还研究了通过恢复 DP 和 IP 之间的协调性来治疗病理性帕金森状态。

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