听觉系统中耳蜗神经核被认为是平行功能性途径的起源。
It is often stated that the cochlear nucleus is the origin of parallel functional pathways in the auditory system.
结论:本研究结果提示微重力对耳蜗神经元的形态发育可能无影响。
Conclusion: the results suggested that microgravity probably could not affect the morphological development of cochlea neurons of chicken embryo.
目的:探讨猫上橄榄复合体各个核团内橄榄耳蜗神经元的分布和形态。
Objective To investigate the distribution and morphology of olivocochlear neurons of superior olivary complex in cats.
耳朵中的耳蜗将声波转换成大脑可以处理的神经电脉冲,从而产生听觉。
The cochlea in the ear converts sound waves to electrical impulses that the brain processes as sound.
第二视力公司几十年对于可植入设备及其他神经交互界面的研究取得了巨大的成功,例如心脏起搏器及耳蜗植入设备。
Second Sight has succeeded by building on several decades of research into implantable devices and other neural interfaces, such as pacemakers and cochlear implants.
神经形态电路对神经系统内发现的生物结构,如耳蜗、视网膜和脑细胞进行仿生。
Neuromorphic circuits mimic biological structures found in the nervous system, such as the cochlea, retina and brain cells.
结论:放射线对耳蜗和前庭毛细胞和神经末稍的损伤是造成其功能障碍的主要原因;
Conclusions :The radiation injuries of hair cells and nerve endings on cochlear and vestibular organs were the reason for their dysfunction.
我们观察了神经干细胞系细胞是否可以替代耳蜗内强噪声暴露后所致的细胞缺失。
We examined whether cells from a neural stem cell line could replace cochlear cell types lost after exposure to intense noise.
在耳蜗中,ATP(三磷酸腺苷)作为神经递质或调质,其作用是比较复杂的。
As a neurotransmitter or neuromodulator in the cochlea, ATP has it's complicated effects.
人工耳蜗是唯一能够使完全耳聋者通过电信号刺激残留的听觉神经以恢复部分听力的医学手段。
Through stimulating remainder hearing nerve by electrical signal, cochlear implants are the only medical tools that can make the deaf get part audition.
结论EOAE可精确分析听神经瘤患者的耳蜗(外毛细胞)功能,部分听神经瘤病人存在“离断耳”现象。
CONCLUSION EOAE can access the function of cochlea (outer hair cells) of an patients. Phenomenon of dissection ear was found in some an patients.
结论感音神经性聋患者耳蜗或听觉传导通路的受损程度对穴位按摩疗效具有显著的影响。
Conclusion the impairment degree of cochlea or auditory transduction pathway in sensorineural deafness patients has significant influence on the curative effect of point massage.
当内耳中的耳蜗刺激听神经时,我们便可以听见声音。
We hear when the cochlea, in the inner ear , stimulates the auditory nerve.
结论听神经瘤早期临床表现为耳蜗与前庭功能异常。
Conclusion the earlier performance of acoustic neuroma is the abnormal function of cochlea and forecourt.
目的对重度感音神经性耳聋患儿行多道人工耳蜗植入术的相关护理问题进行探讨。
Objective To discuss the nursing relevant question during transplanting multi-channel artificial cochlea for children with profound sensorineural hearing loss.
目的观察速尿对豚鼠耳蜗微音器电位(CM)和听神经动作电位(AP)的影响。
Objective: to observe the effect of furosemide on the cochlear microphonic potential (CM) and auditory nerve potential (AP).
目的探讨正常小鸡耳蜗毛细胞神经支配的发育成熟与听功能的关系。
Purpose To study the relationship between the development of innervation on cochlea hair cells and hearing function in normal chick.
目的探讨感音神经性聋患者耳蜗或听觉传导通路的受损程度对穴位按摩疗效的影响。
Objective it is to discuss the influence of the impairment degree of cochlea or auditory transduction pathway in sensorineural deafness patients on the curative effect of point massage.
目的:建立稳定表达nt3的NIH3T3细胞株,通过体外共培养实验观察其对耳蜗螺旋神经节细胞生长的影响。
AIM: to establish a NIH3T3 cell line which expresses human NT3 and to observe the growth of cochlear ganglion cells by co culturing.
结果:将卡铂耳中毒灰鼠的耳蜗标本与正常灰鼠进行比较,显示内毛细胞,神经纤维和螺旋神经节的损失百分比基本一致。
Results: Compared to normal ears, the carboplatin treated ears showed missing hair cells, nerve fibers and spiral ganglion cells, with the same percentage of loss at different levels.
结论交感颈上神经节切除对豚鼠耳蜗血流及听觉生理功能有一定的影响。
Conclusion the superior cervical sympathectomy can influence the cochlear blood flow and auditory function in guinea pig.
目的:探讨脑细胞生长肽是否有预防庆大霉素对豚鼠耳蜗螺旋神经节细胞的损害的作用。
AIM: to investigate the effects of growth peptide of cerebral cells in preventing damage of gentamicin to cochlear spiral ganglion cells (SCGs) in ototoxic guinea pigs.
结果:显示耳蜗螺旋神经节神经元在体外无血清培养条件下,可以存活并进行正常分化。
Results: The spiral ganglion neurons could survive and had a normal phenotypic differentiation in serum-free medium.
岩小神经由鼓室神经丛发出后,穿过耳蜗窗与前庭窗之间,越过鼓膜张肌窝,走向耳神经节。
The lesser petrosal nerve comes from the tympanic plexus running between cochlear window and vestibular window, over recess of tensor sympani muscle and toward otogaglion .
耳蜗背侧核阳性神经元的数量较少。
A few of positive neurons could be seen in the dorsal cochlear nucleus.
人工耳蜗植入是帮助极重度感音神经性听力损失患者恢复听力和言语交流能力的可靠手段,近十年来在我国取得了长足的进步。
Cochlear implants represent a reliable approach to help people with severe-to-pro - found hearing loss to rehabilitate their aural and oral communication abilities.
目的:在体外建立大鼠耳蜗螺旋神经节神经元培养模型,并提高其产出率及细胞活性。
To establish a cytological model of spiral ganglion neurons in vitro and to improve cell yield and viability.
目的:在体外建立大鼠耳蜗螺旋神经节神经元培养模型,并提高其产出率及细胞活性。
To establish a cytological model of spiral ganglion neurons in vitro and to improve cell yield and viability.
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