1) Nucleus of solitary tract
孤束核
1.
Effect of duodenal stimulation with sodium chloride on c-fos expression in nucleus of solitary tract in rats;
十二指肠NaCl刺激对大鼠孤束核c-fos表达的影响
2.
Objective To research the function of the vagus nerve center nucleus of solitary tract(NTS)in the influence of gastric pressure by acupuncture at "Zusanli" in rats with motility disturbances of the stomach.
目的探讨迷走神经中枢孤束核在针刺"足三里"对胃运动障碍大鼠胃内压影响中的作用。
3.
Objective:To research the mechanism of action about the vagus nerve center nucleus of solitary tract (NTS) in adjusting gastric motion by acupuncture at "Zusanli","Neiguan","Zhongwan","Qihai" point.
目的:探讨迷走神经中枢孤束核在针刺"足三里"、"内关"、"中脘"、"气海"调节胃运动中的作用机制。
2) Nucleus of the solitary tract
孤束核
1.
Projection of calbindind D-28k-containing neurons receiving masseter muscle nociceptive information from interstitial nucleus of spinal trigeminal tract to nucleus of the solitary tract in rats;
大鼠三叉神经脊束间质核接受咬肌伤害性信息的calbindin D-28k神经元向孤束核的投射
2.
The purpose of the present study was to investigate if the visceral primary afferents and nociceptive information from orofacial deep tissue converge onto the catecholaminergic neurons projecting to the parabrachial nucleus (PBN) in the nucleus of the solitary tract (NTS).
为了研究内脏初级传入与口面部深层组织躯体伤害性信息是否汇聚于孤束核(NTS)中向臂旁核(PBN)投射的儿茶酚胺(CA)能神经元。
3.
The aim of the present study was to determine if the catecholaminergic neurons in the nucleus of the solitary tract (NTS) received nociceptive inputs from orofacial deep tissue and projected to the parabrachial nucleus(PBN).
为了探讨孤束核(NTS)内儿茶酚胺能神经元是否与面口部深层组织的伤害性信息有关并向臂旁核投射,本研究运用荧光金(FG))逆行追踪,福尔马林刺激咬肌和免疫荧光技术相结合的三重标记方法,在荧光显微镜下观察了大鼠NTS内酪氨酸羟化酶(TH)阳性并表达FOS蛋白的神经元向臂旁核的投射。
3) Nucleus tractus solitarius
孤束核
1.
Effect of histamine H_3 receptors in nucleus tractus solitarius on c-Fos expression in the brain of rats with asthma onset;
大鼠孤束核内H_3受体对哮喘发作时脑组织中Fos蛋白表达的影响
2.
Effect of histamine H_3 receptors in nucleus tractus solitarius on substance P immunoreactive substance in asthmatic rats respiratory system;
哮喘大鼠孤束核内H_3受体对呼吸道P物质样免疫反应物的影响
3.
The direct projections from the nucleus tractus solitarius (NTS) and area postrema (AP) to the periaqueductal gray (PAG) were investigated in the rat by using tract-tracing techniques.
应用神经束路追踪技术对大鼠孤束核(NTS)和最后区(AP)向中脑导水管周围灰质(PAG)的直接投射进行了观察。
4) NTS
孤束核
1.
THE INFLUENCE OF GUSTATORY AND VISCERAL STIMULATION ON FOS EXPRESSION IN RAT NTS;
味觉刺激与内脏刺激对大鼠孤束核FOS表达的影响
2.
Through exploring the effect of NTS in the correlation of heart and stomach deeply, it can supply the basis of the modern nerve biology for the theory of correlation of heart and stomach, also supply some approach and ways for modern researc.
深入探讨内脏感觉的初级传入中枢—孤束核(NucleusoftheSolitaryTract,NTS)在心胃相关中的作用,可为心胃相关理论提供现代神经生物学依据,为中医基础理论的现代化研究提供一定的思路和方法。
3.
Methods The ANP level of plasma while stimulating the fastigial nucleus of cerebellum induced a marked fastigial prssor respone were measured and the fastigial pressor resposne whether or not blocked by electrolytic lesions of NTS was observed.
目的 探讨小脑顶核加压反应是否有体液因素的参与以及孤束核在其中的作用。
5) Nucleus tractus solitarii
孤束核
1.
Expression of FOS and GFAP in Nucleus tractus solitarii after acute cardiac injury in rats;
急性心肌损伤后大鼠孤束核的FOS和神经胶质原纤维酸性蛋白表达的变化
2.
The interactions between the activities of neurones in central amygdaloid nucleus (CeA) and nucleus tractus solitarii (NTS), and the effect of dexamethasone (Dex) microinjected into CeA on cardiovascular response to NA/NPY administrated into NTS were observed.
运用电生理学技术和心血管实验,观察了中央杏仁核(CeA)神经元与孤束核(NTS)神经元活动之间的相互作用,以及在CeA 内注射地塞米松(Dex)对NTS内去甲肾上腺素(NA)/神经肽Y(NPY)诱导的心血管效应的影响。
3.
In this paper the distribution of CGRP neurons and the relationship between CGRP nerve terminals and catecholaminergic neurons in the nucleus tractus solitarii of the rat was studied at light microscopic and electron microscopic levels, using double-immunostaining method and immunoelectronmicroscopic staining techniques.
用双重免疫染色包埋前免疫电镜法,在光镜和电镜水平观察了大鼠孤束核内降钙素基因相关肽神经元的分布及其神经末梢与儿茶酚胺能神经元之间的关系。
6) α1
孤束核α1
补充资料:离子束惯性约束核聚变
分子式:
CAS号:
性质:参加聚变反应的氘、氚核加热到发生聚变所需极高温度时,原子完全离解成带正电的离子和带负电的电子,构成等离子体。在它们膨胀飞散之前,就有大量的核发生碰撞,进行聚变和释放出大量能量。依靠这种方式等离子体在聚变时被自身的惯性约束住了,而不需要昂贵的磁场使其发生核聚变反应。
CAS号:
性质:参加聚变反应的氘、氚核加热到发生聚变所需极高温度时,原子完全离解成带正电的离子和带负电的电子,构成等离子体。在它们膨胀飞散之前,就有大量的核发生碰撞,进行聚变和释放出大量能量。依靠这种方式等离子体在聚变时被自身的惯性约束住了,而不需要昂贵的磁场使其发生核聚变反应。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条