The parasympathetic innervation of the heart originates in the medulla oblongata . 支配心脏的副交感神经发源于延髓的迷走神经核。
2.
Role of caudal pressor area of medulla oblongata in vasomotor tone of peripheral vessels 大鼠延髓尾端加压区对外周血管紧张的影响
3.
Sixteen tumors were located in the midbrain , three in the pons , and one in the medulla oblongata 其中16人肿瘤定位在中脑, 3人在脑桥, 1人在延髓。
4.
The two channels , which carry this energy , in subtle form in the medulla oblongata , are known as ida and pingala respectively 的汽球,覆盖著大脑,头盖骨于是钙化,与那无所不在的生命能量,即上天浩爱的力量切断了联系。
5.
This energy , after leaving a very thread - like , thin line in the medulla oblongata , settles down in three and a half coils in the triangular bone at the base of the spinal cord mooladhar 2投射到棱镜两边的光线经反射后形成相反的方向,在大脑部分相交。这两束光线分别被左脉ida和右脉
6.
Conclusion there exist vasomotor centers in the hypothalamus , the midbrain and the medulla oblongata , and the destruction of these centers is the basic reason for acute diffuse brain swelling 结论大脑血管紧张性调节中枢广泛存在于下丘脑、中脑和延髓,其结构或功能的破坏是急性弥漫性脑肿胀形成的根本基础。
7.
Methods cerebral blood flow ( cbf ) and intracranial pressure ( icp ) were measured after electrolytical destruction of the dorsomedial nucleus of the hypothalamus , the midbrain reticular formation , or / and the reticular formation of the medulla oblongata 方法电解毁损家兔下丘脑背内侧核、中脑网状结构和延髓网状结构,观察脑血流量和颅内压的变化。
8.
Recently , a noval brain - specific na ^ - dependent inorganic phosphate transporters was successfully cloned using the method of molecular biology and was named dnpi because they had the characters of the vesicular glutamate transporter ( vglut ) . some studies showed that dnpi were distributed extensively in the brain area where glu was used as the neurotransmitter , such as thalamus , medulla oblongata and spinal cord . the ultrastructural studies indicated that most of dnpi are located in the presynaptic terminals and distributed on the synaptic vesicular membrane 最近人们应用分子生物学技术又成功地在哺乳类动物脑内克隆出一种新的脑内特殊的na ”依赖的无机磷酸转运体( brain七pecificna dependentinorgarucphosphaternsporter , bnpi ) ,并发现它也具有囊泡膜谷氨酸转运体( vglllt )的特点,因而被命名为dnpi (又称作vgiutz人新近的研究报道, dn ’ pi广泛地分布于运用m作为神经递质的脑区,如丘脑、延髓和脊髓。
9.
The main works already done include the effects and mechanism of stimulation of renzhong on respiration and blood pressure , the electrophysiological and morphological properties of the respiratory neurons in the medulla oblongata of rat , the roles of the medullary respiratory neurons in the regulation of respiration and respiration - related activities , the relation of the nucleus paragigantocellularis lateralis with the control of respiratory rhythm , the roles of the neurons of pre - botzinger complex in the control of respiration and their neurochemical properties , and the establishment of a simple and effective technique of decerebrating rat 已完成的系列研究工作主要有:人中的呼吸和血压效应及其机制;大鼠延髓呼吸神经元的电生理和形态学特点细胞内研究;延髓呼吸神经元在呼吸和呼吸相关活动调节中的作用;旁巨细胞外侧核与呼吸节律;前包钦格复合体神经元的神经化学特性和在呼吸调控中的作用;建立了一种简便有效的去大鼠大脑方法。正在进行的科研工作主要有:
10.
The main works already done include the effects and mechanism of stimulation of renzhong on respiration and blood pressure , the electrophysiological and morphological properties of the respiratory neurons in the medulla oblongata of rat , the roles of the medullary respiratory neurons in the regulation of respiration and respiration - related activities , the relation of the nucleus paragigantocellularis lateralis with the control of respiratory rhythm , the roles of the neurons of pre - botzinger complex in the control of respiration and their neurochemical properties , and the establishment of a simple and effective technique of decerebrating rat 已完成的系列研究工作主要有:人中的呼吸和血压效应及其机制大鼠延髓呼吸神经元的电生理和形态学特点细胞内研究延髓呼吸神经元在呼吸和呼吸相关活动调节中的作用旁巨细胞外侧核与呼吸节律前包钦格复合体神经元的神经化学特性和在呼吸调控中的作用建立了一种简便有效的去大鼠大脑方法。正在进行的科研工作主要有:
