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Titlebook: Cortico-Subcortical Dynamics in Parkinson’s Disease; Kuei-Yuan‘Tseng Book 20091st edition Humana Press 2009 Contemporary.Cortico.Disease.D

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發(fā)表于 2025-3-21 17:21:55 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書(shū)目名稱(chēng)Cortico-Subcortical Dynamics in Parkinson’s Disease
編輯Kuei-Yuan‘Tseng
視頻videohttp://file.papertrans.cn/239/238852/238852.mp4
概述Multidisciplinary approaches.Provides critical reviews about mechanisms of neurodegeneration, particularly within the mesocortical/mesostriatal DA system
叢書(shū)名稱(chēng)Contemporary Neuroscience
圖書(shū)封面Titlebook: Cortico-Subcortical Dynamics in Parkinson’s Disease; Kuei-Yuan‘Tseng Book 20091st edition Humana Press 2009 Contemporary.Cortico.Disease.D
描述The striatum is the principal input structure of the basal ganglia. Numerically, the great majority of neurons in the striatum are spiny projection neurons, which produce the inhibitory output of the striatum to the globus pallidum and substantia nigra. The major glutamatergic afferents to the striatum from the cerebral cortex make monosynaptic contact with spiny projection neurons. The dopaminergic afferents from the substantia nigra also synapse directly on the spiny projection neurons. Thus, the spiny projection neurons play a crucial role in the input–output operations of the striatum by integrating glutamatergic cortical inputs with dopaminergic inputs and producing the output to other basal ganglia nuclei. Anatomical observations made nearly 30 years ago suggested that inhibitory interactions among the spiny projection neurons of the striatum are very pr- able. Individual spiny projection neurons produce a local axonal plexus in the spheroidal space occupied by their own dendritic trees [1, 2]. Based on the GABAergic nature of these neurons and their synaptic contacts with other spiny neurons, several authors have proposed that the spiny projection neurons form a lateral inhi
出版日期Book 20091st edition
關(guān)鍵詞Contemporary; Cortico; Disease; Dynamics; Neurology; Neuroscience; Parkinson; Parkinson‘s; Subcortical; anato
版次1
doihttps://doi.org/10.1007/978-1-60327-252-0
isbn_softcover978-1-61737-883-6
isbn_ebook978-1-60327-252-0
copyrightHumana Press 2009
The information of publication is updating

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Modeling Parkinson’s Disease: 50 Years Later1911 and 2 years later, it was isolated from legumes (.) by Marcus Guggenheim (a Hoffmann-La Roche biochemist, 1913). However, it was not until the discovery of the enzyme “.-dopa decarboxylase” by Peter Holtz in Germany in 1938 that the formulation of the “catecholamine pathway” could be introduced
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The Corticostriatal Pathway in Parkinson’s Diseasee (PD), as well as other neurodegenerative disorders that affect motor function, is associated with abnormal neurotransmission along this pathway [5–7]. In this chapter, we will examine how a reduction of dopamine availability in PD produces striatal synaptic plasticity. These striatal adaptations m
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Basal Ganglia Network Synchronization in Animal Models of Parkinson’s Diseaseltimately disrupts activity in cortico-subcortical networks and induces motor dysfunction remains a challenge. The present chapter reviews studies in a rodent model of Parkinson’s disease investigating effects of dopamine receptor stimulation on firing rate, pattern and synchronization of activity i
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