Dexterous Hand Movements and Their Recovery After Central Nervous System Injury.

IF 12.1 1区 医学 Q1 NEUROSCIENCES
Annual review of neuroscience Pub Date : 2019-07-08 Epub Date: 2019-04-02 DOI:10.1146/annurev-neuro-070918-050436
Tadashi Isa
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引用次数: 22

Abstract

Hand dexterity has uniquely developed in higher primates and is thought to rely on the direct corticomotoneuronal (CM) pathway. Recent studies have shown that rodents and carnivores lack the direct CM pathway but can control certain levels of dexterous hand movements through various indirect CM pathways. Some homologous pathways also exist in higher primates, and among them, propriospinal (PrS) neurons in the mid-cervical segments (C3-C4) are significantly involved in hand dexterity. When the direct CM pathway was lesioned caudal to the PrS and transmission of cortical commands to hand motoneurons via the PrS neurons remained intact, dexterous hand movements could be significantly recovered. This recovery model was intensively studied, and it was found that, in addition to the compensation by the PrS neurons, a large-scale reorganization in the bilateral cortical motor-related areas and mesolimbic structures contributed to recovery. Future therapeutic strategies should target these multihierarchical areas.

中枢神经系统损伤后灵巧手运动及其恢复。
手的灵巧性在高等灵长类动物中得到了独特的发展,并且被认为依赖于直接的皮质神经元(CM)途径。最近的研究表明,啮齿动物和食肉动物缺乏直接的手控通路,但可以通过各种间接的手控通路控制一定程度的灵巧手运动。在高等灵长类动物中也存在一些同源通路,其中位于颈中节段(C3-C4)的本体脊髓(PrS)神经元显著参与手灵巧性。当直接CM通路损伤后,皮质指令通过pr神经元传递到手部运动神经元时,可以明显恢复灵巧的手部运动。我们对这种恢复模式进行了深入的研究,发现除了PrS神经元的代偿外,双侧皮质运动相关区和中边缘结构的大规模重组也有助于恢复。未来的治疗策略应该针对这些多层次的领域。
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来源期刊
Annual review of neuroscience
Annual review of neuroscience 医学-神经科学
CiteScore
25.30
自引率
0.70%
发文量
29
期刊介绍: The Annual Review of Neuroscience is a well-established and comprehensive journal in the field of neuroscience, with a rich history and a commitment to open access and scholarly communication. The journal has been in publication since 1978, providing a long-standing source of authoritative reviews in neuroscience. The Annual Review of Neuroscience encompasses a wide range of topics within neuroscience, including but not limited to: Molecular and cellular neuroscience, Neurogenetics, Developmental neuroscience, Neural plasticity and repair, Systems neuroscience, Cognitive neuroscience, Behavioral neuroscience, Neurobiology of disease. Occasionally, the journal also features reviews on the history of neuroscience and ethical considerations within the field.
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