目的探讨大鼠蓝斑与背柱核间的神经纤维联系。
Objective To investigate nerve fibers connection between locus coeruleus and the dorsal column nuclei in rats.
前言: 目的:探讨P物质在蓝斑复合核对心血管活动的影响。
Objective: The present study is to explore the effects on cardiovascular activities by the injection of substance P (SP) into locus coeruleus complex area (Lc-Sc).
探讨单纯兴奋蓝斑内血管升压素受体对心血管活动的影响及其机制。
OBJECTIVE to study the effects and its mechanism of exciting vasopressin receptor in locus coeruleus for cardiovascular activity.
以小鼠耳廊肿胀法及大鼠皮内蓝斑渗出法观察羚羊清肺丸的抗炎作用。
The method of swelling mouse auricle and the method of blue-spot transudation in rat's skins were used to observe the anti-inflammatory effect of LYQF.
目的探讨促甲状腺素释放激素(TRH)在蓝斑复合核对血压和心率的影响及机制。
Objective To research the effect of TRH at locus caeruleus complex area (Lc-Sc) on blood pressure and heart rate and its mechanism.
图中为倒霉的西班牙商船圣地亚哥号,一条蓝斑鳕鱼和一群小鱼正在其沉没的船体上游弋。
A blue-spotted rock codfish and a school of smaller fish swim over the sunken hull of the ill-fated Spanish merchant galleon San Diego.
结果表明,蓝斑是非胆碱能的,很蓝斑腹侧部网状结构含有胆碱乙酰转移酶阳性反应神经元。
Results show that the locus coeruleus (LC) was noncholinergic, whereas some ChAT immunoreactive neurons were observed in the reticular region ventral to LC.
本研究应用HRP逆轴突传递法观察了20只大鼠蓝斑核(lc)向嗅结节(OT)的投射。
The projection from the nucleus locus coeruleus (LC) to the olfactory tubercle (OT) has been studied with the method of retrograde axonal transport of HRP in 20 rats.
用荧光素双标记法研究了36只大鼠蓝斑向前额叶皮质、海马、丘脑、小脑和脊髓的分支投射。
The divergent axon collaterals from neurons in locus coeruleus have been investigated by means of fluorescent double labeling technique in 36 rats.
将刺激电极安放于大鼠蓝斑(LC)及坐骨神经,用玻璃微电极记录脊髓背角痛敏单位的放电。
Stimulation electrodes were placed in the locus coeruleus (LC) and the sciatic nerve of the rat. Pain unit discharge of spinal dorsal horn was recorded extracellularly with glass microelectrodes.
据英国《每日邮报》报道,一只体表有着红蓝斑纹的蜥蜴,其外形与惊奇漫画的超级英雄蜘蛛侠非常相似。
A lizard with red and blue features bears more than a passing resemblance to the Marvel comic superhero Spiderman, the Daily Mail reported.
大脑蓝斑区部位的神经元是去甲肾上腺素的主要来源之一,去甲肾上腺素是大脑中重要的免疫抑制剂,防止神经元发生炎症和应激反应。
Neurons in this part of the brain are a major source of noradrenaline, which plays an important role as an immunosuppressant in the brain, preventing inflammation and stress to neurons.
大脑蓝斑区部位的神经元是去甲肾上腺素的主要来源之一,去甲肾上腺素是大脑中重要的免疫抑制剂,防止神经元发生炎症和应激反应。
Neurons in this part of the brain are a major source of noradrenaline, which plays an important role as an immunosuppressant in the brain, preventing inflammation and stress to neurons.
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