Cortical modulation of transmission in spinal reflex pathways of man.
作者信息
Iles J F, Pisini J V
机构信息
Department of Zoology, University of Oxford.
出版信息
J Physiol. 1992 Sep;455:425-46. doi: 10.1113/jphysiol.1992.sp019309.
Abstract
- The motor actions in the lower limb of transcranial electrical stimulation of the motor cortex have been studied in sitting human subjects. 2. Cortical stimulation induced a short latency inhibition of H reflexes evoked in soleus motoneurones both at rest and during small voluntary contractions of soleus. 3. Spatial interaction between cortical inhibition of soleus motoneurons and inhibition evoked through identified spinal reflex machinery was investigated. 4. Interactions were found between cortically evoked inhibition and spinal Ia reciprocal inhibition, group I non-reciprocal inhibition and higher threshold components of longer latency reciprocal inhibition (D1 and D2 inhibitions). 5. Interactions were facilitatory when cortical and spinal inhibitory actions were weak and reversed to occlusion when both actions were strong. 6. It is concluded that the corticospinal pathway converges on the interneurones which subserve Ia reciprocal, group I non-reciprocal, D1 and D2 inhibition of soleus motoneurones. 7. No significant interaction was found under the present experimental conditions between cortical stimulation and group Ia-Ia presynaptic inhibition of soleus afferents. 8. The statistical significance of spatial interactions observed with H reflex conditioning was investigated using a control experiment.
摘要
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本文引用的文献
1
THE PYRAMIDAL PROJECTION TO MOTONEURONES OF SOME MUSCLE GROUPS OF THE BABOON'S FORELIMB.狒狒前肢某些肌肉群向运动神经元的锥体投射
Prog Brain Res. 1964;12:222-45. doi: 10.1016/s0079-6123(08)60625-1.
2
A comparison of motor cortex effects on slow and fast muscle innervations in the monkey.猴子运动皮层对慢肌和快肌神经支配的影响比较。
Exp Neurol. 1963 Apr;7:327-41. doi: 10.1016/0014-4886(63)90079-7.
3
Pyramidal effects on lumbo-sacral interneurones activated by somatic afferents.躯体传入神经激活对腰骶中间神经元的锥体束效应。
Acta Physiol Scand. 1962 Nov-Dec;56:220-9. doi: 10.1111/j.1748-1716.1962.tb02497.x.
4
Effects from the pyramidal tract on spinal reflex arcs.锥体束对脊髓反射弧的影响。
Acta Physiol Scand. 1962 Nov-Dec;56:201-19. doi: 10.1111/j.1748-1716.1962.tb02498.x.
5
Effects of motor cortex stimulation on spinal interneurones in intact man.
Exp Brain Res. 1984;54(2):382-4. doi: 10.1007/BF00236241.
6
7
Sites of action of segmental and descending control of transmission on pathways mediating PAD of Ia- and Ib-afferent fibers in cat spinal cord.猫脊髓中Ia和Ib传入纤维介导的后根传入纤维(PAD)通路的节段性和下行性传递控制的作用位点。
J Neurophysiol. 1983 Oct;50(4):743-69. doi: 10.1152/jn.1983.50.4.743.
8
Reciprocal group I inhibition on triceps surae motoneurons in man.人类小腿三头肌运动神经元的交互性I组抑制
J Neurophysiol. 1971 Nov;34(6):1010-7. doi: 10.1152/jn.1971.34.6.1010.
9
Data on the distribution of fibre types in thirty-six human muscles. An autopsy study.三十六块人体肌肉中纤维类型分布的数据。一项尸检研究。
J Neurol Sci. 1973 Jan;18(1):111-29. doi: 10.1016/0022-510x(73)90023-3.
10
Characteristics of corticomotoneuronal postspike facilitation and reciprocal suppression of EMG activity in the monkey.猴子皮质运动神经元峰后易化及肌电图活动交互抑制的特征
J Neurophysiol. 1985 Apr;53(4):959-78. doi: 10.1152/jn.1985.53.4.959.
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