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人类大脑运动区域的大脑活动与力量之间的关系。

Relation between cerebral activity and force in the motor areas of the human brain.

作者信息

Dettmers C, Fink G R, Lemon R N, Stephan K M, Passingham R E, Silbersweig D, Holmes A, Ridding M C, Brooks D J, Frackowiak R S

机构信息

Wellcome Department of Cognitive Neurology, Sobell Department of Neurophysiology, Institute of Neurology, London, United Kingdom.

出版信息

J Neurophysiol. 1995 Aug;74(2):802-15. doi: 10.1152/jn.1995.74.2.802.

Abstract
  1. Positron emission tomography (PET) studies were performed in six normal right-handed male volunteers (age 30 +/- 3) to investigate the relationship between cerebral activation as measured by relative regional cerebral blood flow (rCBF) and force peak exerted during right index finger flexion. The purpose was to determine in which central motor structures activity is directly correlated with force for repeatedly executed movements. 2. Twelve PET rCBF measurements were performed in each volunteer with the use of H2(15)O as a perfusion tracer. Volunteers pressed a Morse-key repetitively with their right index finger for 2 min while lying in a supine position in the PET camera. The device was fitted with strain gauges to measure the force peaks exerted upon it. Scans were collected twice each at five different levels of exerted force peak and in a resting state. Individual and group results were co-registered with anatomic magnetic resonance images (MRI). 3. Group analysis revealed four major regions with a high correlation between rCBF and different degrees of repetitively exerted force peaks. One was located in the arm area of the left lateral surface [primary somatosensory and motor cortex (SI, MI)]. The second area was situated on the left mesial surface of the brain, posterior to the anterior commissure (AC) and encompassing the first gyrus dorsal to the cingulate sulcus. This area is thought to be homologous to the posterior part of the supplementary motor area (SMA) in the monkey. The third area was the dorsal bank of the posterior cingulate sulcus. The fourth area showing a significant correlation between rCBF and force peaks was in the cerebellar vermis. 4. Individual PET data were co-registered with each individual's MRI in order to identify precisely the locations of structures demonstrating a positive correlation between rCBF and force peak. Activated areas on the mesial surface consisted of the same two distinct regions seen in the group data. In three subjects the focus on the lateral surface of the cortex appeared to extend into the caudal premotor area; in two it extended into the rostral part of the superior parietal area. In no subject did blood flow in the anterior cingulate areas and anterior SMA show a correlation with the force exerted. Cerebellar correlations were present in the vermis in all subjects.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 对6名正常右利手男性志愿者(年龄30±3岁)进行了正电子发射断层扫描(PET)研究,以探讨通过相对局部脑血流量(rCBF)测量的脑激活与右手示指屈曲时所施加的力峰值之间的关系。目的是确定在哪些中枢运动结构中,活动与重复执行运动时的力直接相关。2. 每名志愿者使用H2(15)O作为灌注示踪剂进行了12次PET rCBF测量。志愿者仰卧于PET相机中,用右手示指反复按压莫尔斯按键2分钟。该设备装有应变仪以测量施加于其上的力峰值。在五个不同的力峰值水平及静息状态下,每次扫描均采集两次。个体和组的结果与解剖磁共振图像(MRI)进行了共同配准。3. 组分析显示,有四个主要区域的rCBF与不同程度的重复施加力峰值之间存在高度相关性。一个位于左侧面的臂区[初级体感和运动皮层(SI,MI)]。第二个区域位于大脑的左内侧表面,在前连合(AC)后方,包括扣带沟背侧的第一个脑回。该区域被认为与猴子的辅助运动区(SMA)后部同源。第三个区域是后扣带沟的背侧缘。显示rCBF与力峰值之间存在显著相关性的第四个区域位于小脑蚓部。4. 将个体PET数据与每个个体的MRI进行共同配准,以便精确识别显示rCBF与力峰值之间呈正相关的结构位置。内侧表面的激活区域由组数据中所见的相同两个不同区域组成。在三名受试者中,皮层外侧表面的焦点似乎延伸至尾侧运动前区;在两名受试者中,延伸至上顶叶区的嘴侧部分。在任何受试者中,前扣带区和前SMA的血流均未显示与所施加的力相关。所有受试者的小脑蚓部均存在相关性。(摘要截于400字)

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