1) Blood-labyrinth barrier
血-迷路屏障
2) blood labyrinth barrier
血迷路屏障
1.
Model in vitro for the permeability of blood labyrinth barrier from guinea pigs;
豚鼠血迷路屏障通透性的体外模型
2.
Conception of inner ear blood labyrinth barrier and progress in research of traditional Chinese medicine;
内耳血迷路屏障概念及中医药研究进展
3) blood-labyrinth barrier
血迷路屏障
1.
Objective To investigate the change of the permeability of endotoxin-induced blood-labyrinth barrier(BLB) in guinea pigs.
目的研究内毒素(ETX)致豚鼠血迷路屏障的动态变化情况。
2.
Objectives: To evaluate the dynamic changes in the morphology and function of blood-labyrinth barrier (BLB) in endotoxin (ETX)-treated cochlea of guinea pigs, and to study the possible role of nitric oxide on the duration of the changes in permeability of BLB in ETX-treated cochlea.
目的:研究内毒素对血迷路屏障形态和功能影响的动态变化及NO在内毒素致血迷路屏障通透性改变过程中的可能作用,探讨内毒素对血迷路屏障通透性变化的部分机制,为研究化脓性中耳乳突炎致内耳损害的机制提供理论依据。
3.
Objective: To investigate the molecular mechanism of the regulation to the blood-labyrinth barrier permeability of guinea pig inner ear affected by nitric oxide in vitro.
目的:通过TNF诱导产生NO,研究NO对豚鼠耳蜗血管纹微血管内皮细胞通透性影响的特征及分子机理,为临床调控血迷路屏障通透性提供理论依据。
4) blood
“血”
1.
More than ten of the imitations and tens of the chicken-blood stone samples newly collected from Changhua are observed with naked eye and microscope,including the contrastive testing of the thinned sections,physical properties and mineral compositions.
对新近从昌化收集的十几块仿鸡血石样品和数十块鸡血石样品进行了肉眼与镜下观察,并进行了岩石薄片、物理性质和矿物成分等对比检测,总结出鸡血石和仿鸡血石在“地子”和“血”方面的特征以及在成分上存在的较明显差异,可以加以鉴别,而物理性质的差异则宜用于辅助鉴别。
5) blood
血
1.
Determination of Lead in Human blood by Differential Potentiometric Strpping Analysis;
微分电位溶出法测定血中铅
2.
Determination of Aluminium and Manganese in Whole Blood by Graphite Furnace Atomic Absorption Spectrophotometry;
石墨炉原子吸收法测定全血中的锰和铝
3.
Determination of Barbiturates in Blood, Liver and Urine by Solid-phase Extraction and UV Differential Derivative Spectrophotometry;
固相萃取-紫外差示导数光谱法测定血肝尿中巴比妥类药物
6) Plasma Nitric Oxide
血NO
参考词条
补充资料:血睾屏障
血睾屏障
生理名。系比邻 的支柱细胞的浆膜互相交织融合成一紧密连接带而形成一个不让血循环内物质任意渗透到曲 细精管内的保护带。它有利于生精过程。由两部分组成:位于曲细精管壁和支柱细胞交织连 接 处的外层间隙(基底间隙)及与曲细精管管腔相衔接的内层间隙(曲细精管腔内间隙),构成内 、 外环境。在形态结构上亦分两层。外层是曲细精管外周和肌样细胞相邻间的连接;内层是相 邻之支柱细胞的复杂连接,即呈现一紧密连接,为阻止物质通透的最有效一层。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。