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Direct and indirect activation of cortical neurons by electrical microstimulation.通过微电刺激对皮质神经元进行直接和间接激活。
J Neurophysiol. 2006 Aug;96(2):512-21. doi: 10.1152/jn.00126.2006.
2
Contrasting properties of motor output from the supplementary motor area and primary motor cortex in rhesus macaques.恒河猴辅助运动区和初级运动皮层运动输出的对比特性
Cereb Cortex. 2006 May;16(5):632-8. doi: 10.1093/cercor/bhj009. Epub 2005 Jul 27.
3
Properties of primary motor cortex output to forelimb muscles in rhesus macaques.恒河猴初级运动皮层对前肢肌肉输出的特性。
J Neurophysiol. 2004 Nov;92(5):2968-84. doi: 10.1152/jn.00649.2003. Epub 2004 May 26.
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The supplementary motor area of the cerebral cortex; a clinical and experimental study.大脑皮质的辅助运动区:一项临床与实验研究。
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Patterns of localization in precentral and "supplementary" motor areas and their relation to the concept of a premotor area.中央前回和“辅助”运动区的定位模式及其与运动前区概念的关系。
Res Publ Assoc Res Nerv Ment Dis. 1952;30:238-64.
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Neural activity in monkey dorsal and ventral cingulate motor areas: comparison with the supplementary motor area.猴子背侧和腹侧扣带运动区的神经活动:与辅助运动区的比较。
J Neurophysiol. 2002 Nov;88(5):2612-29. doi: 10.1152/jn.00306.2002.
7
Comparison of neuronal activity in the rostral supplementary and cingulate motor areas during a task with cognitive and motor demands.在一项具有认知和运动需求的任务中,对嘴侧辅助运动区和扣带回运动区的神经元活动进行比较。
Eur J Neurosci. 2002 Mar;15(5):887-904. doi: 10.1046/j.1460-9568.2002.01920.x.
8
Organization of inputs from cingulate motor areas to basal ganglia in macaque monkey.猕猴扣带回运动区至基底神经节的输入组织
Eur J Neurosci. 2001 Nov;14(10):1633-50. doi: 10.1046/j.0953-816x.2001.01789.x.
9
Differences in the corticospinal projection from primary motor cortex and supplementary motor area to macaque upper limb motoneurons: an anatomical and electrophysiological study.从初级运动皮层和辅助运动区到猕猴上肢运动神经元的皮质脊髓投射差异:一项解剖学和电生理学研究。
Cereb Cortex. 2002 Mar;12(3):281-96. doi: 10.1093/cercor/12.3.281.
10
Consistent features in the forelimb representation of primary motor cortex in rhesus macaques.恒河猴初级运动皮层前肢代表区的一致特征。
J Neurosci. 2001 Apr 15;21(8):2784-92. doi: 10.1523/JNEUROSCI.21-08-02784.2001.

恒河猴内侧壁运动区前肢肌肉的代表区和输出特性。

Forelimb muscle representations and output properties of motor areas in the mesial wall of rhesus macaques.

机构信息

Department of Molecular & Integrative Physiology, University of Kansas Medical Center (KUMC), Kansas City, KS 66160, USA.

出版信息

Cereb Cortex. 2010 Mar;20(3):704-19. doi: 10.1093/cercor/bhp136. Epub 2009 Jul 24.

DOI:10.1093/cercor/bhp136
PMID:19633176
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2820706/
Abstract

In this study, forelimb organizations and output properties of the supplementary motor area (SMA) and the dorsal cingulate motor area (CMAd) were assessed and compared with primary motor cortex (M1). Stimulus-triggered averages of electromyographic activity from 24 muscles of the forelimb were computed from layer V sites of 2 rhesus monkeys performing a reach-to-grasp task. No clear segregation of the forelimb representation of proximal and distal muscles was found in SMA. In CMAd, sites producing poststimulus effects in proximal muscles tended to be located caudal to distal muscle sites, although the number of effects was limited. For both SMA and CMAd, facilitation effects were more prevalent in distal than in proximal muscles. At an intensity of 60 microA, the mean latencies of M1 facilitation effects were 8 and 12.1 ms shorter and the magnitudes approximately 10 times greater than those from SMA and CMAd. Our results show that corticospinal neurons in SMA and CMAd provide relatively weak input to spinal motoneurons compared with the robust effects from M1. However, a small number of facilitation effects from SMA and CMAd had latencies as short as the shortest ones from M1 suggesting a minimum linkage to motoneurons as direct as that from M1.

摘要

在这项研究中,评估了补充运动区(SMA)和背侧扣带运动区(CMAd)的前肢组织结构和输出特性,并将其与初级运动皮层(M1)进行了比较。通过对 2 只执行伸手抓握任务的恒河猴第 V 层的 24 个前肢肌肉的肌电图活动进行刺激触发平均计算。在 SMA 中,没有发现近端和远端肌肉的前肢代表明显分离。在 CMAd 中,产生近端肌肉刺激后效应的部位倾向于位于远端肌肉部位的尾部,尽管效应的数量有限。对于 SMA 和 CMAd,促进效应在远端肌肉中比在近端肌肉中更为普遍。在 60μA 的强度下,M1 促进效应的平均潜伏期比 SMA 和 CMAd 短 8 和 12.1ms,幅度大约大 10 倍。我们的研究结果表明,与来自 M1 的强大影响相比,SMA 和 CMAd 中的皮质脊髓神经元对脊髓运动神经元的输入相对较弱。然而,SMA 和 CMAd 中的少量促进效应潜伏期与 M1 最短的潜伏期一样短,这表明与 M1 一样直接与运动神经元的连接最小。