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- Ciliary ganglion neurons 睫状神经节神经元
- Conclusion The method is very feasible, as it may avoid damage to inferior alveolar nerve and can demonstrate ciliary ganglion. 结论该方法可行性强,避免了标本制作中下牙槽神经的损坏,显示了睫状神经节。
- The new-established model included the model of cultured dorsal root ganglion neurons and swallowing respond model. 新建立的研究模型包括培养脊髓背根神经节神经元模型及吞咽反应模型。
- OBJECTIVE To observe the spiral ganglion neurons (SGN) growth in different conditions in vitro. 目的观察不同培养条件下螺旋神经元体外生长情况,获得高纯度螺旋神经元培养物。
- Data showed that ciliary ganglion transection can not prevent the myopic eye growth, and optic nerve transection can not block the lid-suture induced myopia. 结果,睫状神经节切除并未能有效抑制近视化眼轴增长,而且视神经切除也无法阻断眼睑缝合近视的产生。
- Aim: To observe redox modulation of ion channel in trigeminal ganglion neurons by oxidants and reducing agents. 目的:研究氧化还原药物对三叉神经节细胞离子通道的调节作用。
- Objective To analyze quantitatively the dead dorsal root ganglion neurons following peripheral nerve injury in adult rats. 目的研究周围神经损伤后,脊神经节感觉神经元的死亡数量。
- Most case of sensorineural deafness can be attribute to the impairment and degeneration of hair cell and associated spiral ganglion neurons. 绝大多数感音神经聋是由毛细胞和与之相联系的螺旋神经的损伤或退化造成。哺乳动物内耳缺乏再生能力。
- Objective To establish a simple and reliable method for primary culture and purification of embryonic dorsal root ganglion neurons. 目的建立一种简单可行的胚胎大鼠背根神经节神经元培养和纯化方法。
- Therefore, we sought to explore the mechanism of central pathway with myopia by cutting the ciliary ganglion to block the accommodation, or cutting the optic nerve to disconnect the central pathway. 所以本篇利用睫状神经节切除来完全除去调节力,并以视神经切除来切断和中枢径路的连接,来探讨到底调节系统和中枢径路对近视的产生和发展有何相关意义。
- Abstract Objective To create a cytological model of trypsin dissociation and culture of spiral ganglion neurons (SGN) of postnatal rats in vitro. 摘要 目的 建立酶解分离培养新生大鼠耳蜗螺旋神经元(SGN)的方法。
- Trigeminal ganglion neurons express many subtypes of voltage-gated potassium channels and they can evoke different type of K(superscript +) current when activated. 电压门控性钾通道的多种类型在三叉神经节神经元中均有表达,激活时产生不同类型的钾电流。
- nasociliary root of ciliary ganglion 睫状神经节鼻睫根
- sensory root of ciliary ganglion 睫状神经节感觉根
- oculomotor root of ciliary ganglion 睫状神经节动眼根
- communicating branch with ciliary ganglion 睫状神经节交通支
- Injection of sympathetic ciliary ganglion 交感神经睫状神经节注射
- parasympathetic root of ciliary ganglion 睫状神经节副交感根
- sympathetic root of ciliary ganglion 睫状神经节交感根
- Conclusion: NGF is presented in rat intracardiac ganglionic neurons and estrogen might have the capacity in regulating the expression of NGF in intracardiac ganglia. 雌激素可能影响心内神经节细胞的NGF表达。
