丘脑的背内侧核和网状核内标记终末较少。
The mediodorsal nucleus and thalamic reticular nucleus were also found mildly labeled.
目的研究高频电刺激丘脑网状核(TRN)对戊四氮致癫痫大鼠的作用。
Objective To investigate the effect of high frequency electrical stimulation in the thalamic reticular nucleus (TRN) on the epileptic rats evoked by Pentylenetetrazol (PTZ).
目的研究丘脑网状核(rt)一氧化氮能神经元对大鼠睡眠-觉醒周期的影响。
Objective To study the effects of nitric oxide (NO) neurons in reticular thalamic nucleus (RT) on sleep-waking cycle in rats.
目的 :比较皮质脊髓神经元与皮质巨细胞网状核神经元的分布并探讨是否有分支投射。
Objective To compare the distributions of the corticospinal neurons and the corticorubral neurons and study whether the corticospinal neurons project collaterals to the red nucleus exist or not.
本研究将WGA—HRP注入25只大鼠脊髓灰质内,顺行追踪脊髓至外侧网状核的纤维投射。
The spinal projection to the lateral reticular nucleus (LRN) was examined in 25 rats by the method of anterograde transport of Wheat Germ Agglutinin-Horseradish Peroxidase (WGA-HRP).
标记细胞主要见于后束核、大中缝核、网状核、前庭核及孤束核。王喜莲参加了本研究的技术工作。
The labeled cells were found mainly in the dorsal column nuclei, nucleus raphe magnus, reticular nuclei, vestibular nuclei and nucleus of tractus solitarius.
结论:睡眠纺锤波由与特异丘脑核团相连的丘脑网状核产生,并受皮质-丘脑和丘脑-皮质联结调控。
CONCLUSIONS: Sleep spindles are generated by the thalamic reticular nucleus in conjunction with specific thalamic nuclei and are modulated by corticothalamic and thalamocortical connections.
方法:将颗粒蓝(GB)及核黄(NY)分别注入大鼠的脊髓和延髓的巨细胞网状核,在大脑皮质观察标记细胞出现的部位。
Method: GB and NY were injected into the spinal cord and gigantocellular nucleus of rats separately. The distribution of labeled neurons in the cerebral cortex was observed.
结果:NGF主要位于正常大脑皮质各层、海马各区以及脑干网状结构神经元细胞的胞浆与胞核;
Results NGF chiefly located in endochylema and cell nucleus of neuron in cerebral cortex , hippocampus and reticular formation of brain stem.
叶绿体系统树与核基因系统树之间的冲突,可能是由杂交、渐渗、谱系分选造成的网状进化引起的。
The reticulate evolution caused by hybridization, introgression and lineage sorting may be an explanation for the molecular phylogenetic incongruence.
目的:研究大鼠网状背侧亚核的功能传出通路及该通路上NADPH d的分布。
Objective:To investigate the functional efferent pathway from the subnucleus reticularis dorsalis (SRD) of the medulla oblongata and the distribution of NADPH din the pathway.
SP阳性细胞还见于疑核腹外侧紧邻的网状结构中。
SP positive cell bodies in the reticular formation close ventrolateral to nucleus ambiguus were also found.
应用HRP技术,将HRP注入豚鼠延髓网状巨细胞核,追踪其传入纤维的起源。
The present study was undertaken to identify some afferent connections of the nucleus reticularis gigantocellularis(GC) in guinea pigs by using HRP retrograde tracing method.
外侧群动脉供应延髓网状结构、脊丘束和迷走神经背核等。
The lateral group supplies reticular formation, spinothalamic tract and dorsal vagal nucleus.
在SIDS组,桥脑滑车神经核、延髓迷走神经核和腹外侧网状结构GFAP阳性胶质细胞明显增加,与对照组比较差别显著;
The numbers of GFAP positive glia were significantly increases in white matter of SIDS cases, compared with the controls.
在延髓,ER分布于舌下神经核、迷走神经背核、三叉神经脊束核、孤束核和网状结构;
In the medulla oblongata, ER distributed in the hypoglossal nucleus, dorsal nucleus of vagus nerve, nucleus of spinal trigeminal tract, nucleus of solitary tract and reticular formation;
这样在上肢,偏向屈肌的红核脊髓束和延髓网状脊髓束占优于偏向伸肌的前庭脊髓中间束和侧束及脑桥的网状脊髓束。
The rubrospinal tract and medullary reticulospinal tract biased flexion outweighs the medial and lateral vestibulospinal and pontine reticulospinal tract biased extension in the upper extremities.
这样在上肢,偏向屈肌的红核脊髓束和延髓网状脊髓束占优于偏向伸肌的前庭脊髓中间束和侧束及脑桥的网状脊髓束。
The rubrospinal tract and medullary reticulospinal tract biased flexion outweighs the medial and lateral vestibulospinal and pontine reticulospinal tract biased extension in the upper extremities.
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