之所以会这样,是因为大脑中的视觉细胞和听觉细胞会争夺有限的大脑空间。
It happens because visual and hearing senses are trying to share limited brain capacity, they said.
听力丧失以及相关失衡的主要原因在于人类和其他一些哺乳动物的听觉细胞无法自行再生。这点和其他生物如鸟类不同。
The major reason for hearing loss and certain balance disorders is that - unlike other species such as birds - humans and other mammals are unable to spontaneously regenerate these hearing cells.
神经细胞和纤维仍在起作用,处理刺激物的空间位置属性,只不过不是视觉,而是通过听觉和触觉。
The neural cells and fibers are still there and still functioning, processing spatial attributes of stimuli, driven not by sight but by hearing and touch.
内耳中的这种细胞是人类听觉不可或缺的一环。之所以称为“毛细胞”,是因为它们在显微镜下看上去就像是在细胞外长出了绒毛。
Hair cells, which took their name because under the microscope they look like cells with little hairs growing out of them, are an essential link in hearing.
如果许许多多的毛细胞丢失或受损,我们就会丧失听觉。
When a significant number of these cells are lost or damaged, hearing loss occurs.
赫勒声称,由于用于研究的毛细胞数量稀缺,从而阻碍了他们进一步了解听觉的分子基础。
One of the roadblocks to understanding the molecular basis of hearing is the paucity of hair cells available for study, Heller said.
在我们的耳朵中,钙离子在导致毛细胞(能够感觉声音振动的特殊细胞)和神经细胞(连接毛细胞和大脑的听觉中枢)的损伤中扮演了重要的作用。
In the ear, calcium may play a role in causing damage to hair cells (specialized cells that sense sound vibrations) and the nerve cells that connect the hair cells to the hearing centers of the brain.
干细胞替代疗法治疗听觉损伤。
Studies about stem-cell substitutive therapy of hearing impairment.
观察各种豚鼠血清中一氧化氮、听觉脑干反应、内耳外毛细胞的形态学变化。
Then the nitric oxide in serum was measured. The threshold of auditory brainstem response (ABR) and the pathological morphology of outer hair cells in the inner ear were evaluated.
结果:49.5%的患儿脑电图异常,存在脑细胞功能障碍,66.8%的患儿脑干听觉诱发电位,有听觉传导的异常。
Results: 49. 5% of children showed abnormality in EEG. That is, functional disorder of cerebral cells existed and 66. 8% showed abnormal aural conduction in their brainstem evoked potential.
应用扫描电镜,结合听觉电生理学和酶组织化学方法研究了缺铁对大鼠听毛细胞结构与功能的影响。结果发现,缺铁组大鼠耳蜗生物电位的产生受到抑制;
The effects of iron deficiency (ID) on the hair cells were studied in growing rats by scanning electron microscopic, auditory elec'crophysiological and histochemical techniques.
方法:应用听觉脑干诱发电位和全细胞膜片钳制技术。
METHODS: Auditory brainstem responses (ABR) and whole-cell patch clamp techniques were used.
方法:应用听觉脑干诱发电位和全细胞膜片钳制技术。
METHODS: Auditory brainstem responses (ABR) and whole-cell patch clamp techniques were used.
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