从猫的前间位核和前肢皮肤到运动皮层的投射的拓扑组织
Topographical organization of projections to cat motor cortex from nucleus interpositus anterior and forelimb skin.
作者信息
Jörntell H, Ekerot C F
机构信息
Department of Physiology and Neuroscience, University of Lund, Solvegatan 19, S-223 62 Lund, Sweden.
出版信息
J Physiol. 1999 Jan 15;514 ( Pt 2)(Pt 2):551-66. doi: 10.1111/j.1469-7793.1999.551ae.x.
Abstract
- The activation of the motor cortex from focal electrical stimulation of sites in the forelimb area of cerebellar nucleus interpositus anterior (NIA) was investigated in barbiturate-anaesthetized cats. Using a microelectrode, nuclear sites were identified by the cutaneous climbing fibre receptive fields of their afferent Purkinje cells. These cutaneous receptive fields can be identified by positive field potentials reflecting inhibition from Purkinje cells activated on natural stimulation of the skin. Thereafter, the sites were microstimulated and the evoked responses were systematically recorded over the cortical surface with a ball-tipped electrode. The topographical organization in the motor cortex of responses evoked by electrical stimulation of the forelimb skin was also analysed. 2. Generally, sites in the forelimb area of NIA projected to the lateral part of the anterior sigmoid gyrus (ASG). Sites in the hindlimb area of NIA also projected to lateral ASG and in addition to a more medial region. Sites in the face area of NIA, however, projected mainly to the middle part of the posterior sigmoid gyrus (PSG). 3. For sites in the forelimb area of NIA, the topographical organization and strength of the projections varied specifically with the cutaneous climbing fibre receptive field of the site. The largest cortical responses were evoked from sites with receptive fields on the distal or ventral skin of the forelimb. 4. Microelectrode recordings in the depth of the motor cortex revealed that responses evoked by cerebellar nuclear stimulation were due to an excitatory process in layer III. 5. Short latency surface responses evoked from the forelimb skin were found in the caudolateral part of the motor cortex. At gradually longer latencies, responses appeared in sequentially more rostromedial parts of the motor cortex. Since the responses displayed several temporal peaks that appeared in specific cortical regions for different areas of the forelimb skin, several somatotopic maps were seen. 6. The cerebellar and cutaneous projections activated mainly different cortical regions and had topographical organizations that apparently were constant between animals. Their patterns of activation may constitute a frame of reference for investigations of the functional organization of the motor cortex.
摘要
- 在巴比妥麻醉的猫中,研究了小脑前间位核(NIA)前肢区域部位的局灶性电刺激对运动皮层的激活作用。使用微电极,通过其传入浦肯野细胞的皮肤攀缘纤维感受野来识别核部位。这些皮肤感受野可通过反映自然刺激皮肤时被激活的浦肯野细胞抑制作用的正性场电位来识别。此后,对这些部位进行微刺激,并用球尖电极在皮层表面系统记录诱发反应。还分析了前肢皮肤电刺激在运动皮层诱发反应的拓扑组织。2. 一般来说,NIA前肢区域的部位投射到前乙状回(ASG)的外侧部分。NIA后肢区域的部位也投射到外侧ASG,此外还投射到更内侧的区域。然而,NIA面部区域的部位主要投射到后乙状回(PSG)的中部。3. 对于NIA前肢区域的部位,投射 的拓扑组织和强度随该部位的皮肤攀缘纤维感受野而有特定变化。最大的皮层反应由前肢远端或腹侧皮肤有感受野的部位诱发。4. 运动皮层深部的微电极记录显示,小脑核刺激诱发的反应是由于Ⅲ层的兴奋过程。5. 在前肢皮肤诱发的短潜伏期表面反应出现在运动皮层尾外侧部分。随着潜伏期逐渐延长,反应依次出现在运动皮层更靠前内侧的部位。由于这些反应在不同前肢皮肤区域的特定皮层区域出现多个时间峰值,因此可见多个躯体定位图。6. 小脑和皮肤投射主要激活不同的皮层区域,并且具有在动物之间明显恒定的拓扑组织 。它们的激活模式可能构成研究运动皮层功能组织 的参考框架
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