Objective: To explore newbornes' brainstem auditory evoked potential (BAEP) normal value for early diagnosis of hearing disorders.
目的:探讨新生儿脑干听觉诱发电位(BAEP)正常值,为早期发现新生儿听力障碍提供参考。
Auditory neuropathy (an) is a class of sensorineural hearing disorders with specific symptoms. Its location and mechanism are still unclear and the diagnosis is quite complicated.
听神经病是一种特殊的感音神经性耳聋,目前对其病变部位和发病机理的认识仍有争议,诊断方法也较为复杂。
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.
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。
Speech disorders such as stuttering, inappropriate pitch, or poor speech fluency can result from brain injury, learning disability, cleft palate, hearing loss, emotional problems, or other causes.
诸如口吃、发音不准、语言不流畅这些言语障碍都是由大脑损伤、学习障碍、腭裂、听觉失灵、情感障碍或其它原因造成的。
Objectives Hearing loss is one of the most common sensory disorders in the Chinese population.
目的听力损失是中国人群中的常见的感觉障碍性疾病。
The researchers also found that both those suffering age-related macular degeneration and cataracts were more likely to suffer hearing loss than those without these disorders.
研究人员还发现,伴随有老年性黄斑退行性改变或者白内障的老人比没有这些视力问题的老人更容易发生听力损害。
Audiologists and speech-language pathologists diagnose, evaluate and treat human communication disorders including hearing, speech, language and voice disorders.
听力学家和语言语音病理学家诊断,评估和治疗人类在沟通方面的障碍其中包括听觉,语言,语音和声音障碍。
One of the greastest challenges in treatment of inner ear disorders is to find a cure for hearing impairment that is caused by loss of cochlear hair cells or spiral ganglion neurons.
治疗内耳疾病的主要困难之一是找到耳蜗毛细胞或者螺旋神经元丢失所导致的听力损失的治疗方法。本文讨论使用干细胞替代感觉细胞丢失为目的的几个治疗策略。
Objective To study the characteristics of hearing loss caused by local microcirculatory disorders in the cochlea of guinea pigs.
目的研究豚鼠耳蜗底回接近末端和耳蜗顶部区域局部微循环障碍的听力损伤特点。
Conclusion When the local microcirculatory disorders in the cochlear apical part took place, the hearing loss was more marked in the low - range frequencies.
结论耳蜗顶部区域的局部微循环障碍可以导致低频范围为主的听力损伤。
Conclusion: If the local microcirculatory disorders in the cochlea basal turn near termination take place, the hearing losses are more remarkable in the high range frequencies.
结论:耳蜗底回接近末端局部微循环障碍可以导致高频范围为主的听力损伤。
Hearing, 2e: Anatomy, Physiology, and Disorders of the Auditory System.
听觉,第2版:解剖学,生理学及听力系统混乱。
Hearing, 2e: Anatomy, Physiology, and Disorders of the Auditory System.
听觉,第2版:解剖学,生理学及听力系统混乱。
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