听觉中枢

tīnɡ jué zhōnɡ shū
  • auditory center;acoustic center
听觉中枢听觉中枢
  1. 慢性噪声暴露对听觉中枢的影响

    Auditory Center Affected by Chronic Noise Exposure

  2. 大白鼠脑干听觉中枢的研究下丘中心核内神经突触的特点

    Studies on the auditory center of the brainstem of the rat characteristics of the synapses in the central nucleus of the inferior colliculus

  3. 豚鼠脑干听觉中枢和内侧膝状体GABAA受体β亚单位的分布

    Distribution of P subunit of GABA_A receptor in the brain stem auditory centre and medial geniculate body of guinea pigs

  4. 结果在BOLDfMRI研究中,纯音刺激激活两侧听觉中枢和其周围邻近脑区,右侧半球听觉中枢的激活强度明显大于左侧。

    Results On BOLD fMRI , for healthy subjects to pure tone stimuli , significant activations were observed in bilateral auditory cortex and the surrounding areas , there was obvious activation in right hemisphere than that in left .

  5. 目的:比较脑啡肽(ENK)在雄性黄雀与白腰文鸟发声核团和听觉中枢内的分布差异。

    Objective : To compare the distribution of enkephalin ( ENK ) in the vocal and auditory nuclei of male Carduelis spinus and Lonchura Striata .

  6. 针刺对豚鼠皮层听觉中枢兴奋性的影响

    Effect of Acupuncture on Excitability of Auditory Cortex of Guinea Pig

  7. 褪黑素对顺铂的听觉中枢毒性的影响

    The protective effect of melatonin on auditory cortex toxicity induced by cis-platinum

  8. 突发性聋患者听觉中枢在功能性核磁的表现

    Functional magnetic resonance imaging of auditory cortex in sudden sensorineural hearing loss

  9. 听觉中枢功能评价在听力言语康复中的应用

    Evaluation of Central Auditory Function and Hearing and Speech Rehabilitation

  10. 不同强度纯音刺激引起听觉中枢兴奋的磁源成像研究

    Magnetic source imaging study of responses in auditory cortex evoked by pure tone stimuli at variable sound pressure level

  11. 结论纯音刺激激活听觉中枢和周围脑区,右侧半球为纯音刺激时听觉的优势半球。

    Conclusion The auditory cortex and the surrounding areas evoked by pure auditory stimuli , right hemisphere is predominance in healthy subjects .

  12. 突聋组听中枢激活容积小于正常组。结论突聋患者在单耳刺激时听觉中枢出现优势偏向的改变,提示单侧耳聋的病人听觉皮质存在着结构重组;

    Conclusion There appears to be a directional preponderance change in activation by monaural sound stimulation in patients with SSNHL , indicating reorganization of the auditory cortex .

  13. 这种频率拓扑结构的存在,使得不同频率的声音信号可以通过不同通道上传,因而听觉中枢对频率的编码得以大大简化。

    The presence of topology of frequency makes the sound signals of different frequencies uploading via different channels . Thus the frequency coding of auditory coding can be greatly simplified .

  14. 目的探索耳蜗电刺激的听觉中枢电活动机理,为多道人工耳蜗电刺激的部位代码提供生理依据。

    Objective To explore the electrical activity mechanism of auditory center to intracochlear electrical stimulation and provide physiological foundation for spatial encoding of electrical stimulation in multiple channel cochlear implant .

  15. 目的:探讨听觉中枢功能状态对听力语言康复的影响,分析交错扬扬格词试验在助听器选配中的作用。

    Objective : To study the effects of central auditory function in hearing and speech rehabilitation and investigstethe relation between hearing aids fitting and Staggered Spondaic Word ( SSW ) test .

  16. 对这8例患者进行回顾性分析,随访3~5年。就术后开机调试特点,术后听力言语康复效果以及存在的问题等进行讨论。听觉中枢功能评价在听力言语康复中的应用

    A retrospective analysis was performed to deal with the surgical techniques , mapping , rehabilitations characteristics and quality of life after surgery . Evaluation of Central Auditory Function and Hearing and Speech Rehabilitation

  17. 在听觉中枢系统中,动物听觉中枢处理声音强度和频率及其它时空特征主要是通过神经元回路兴奋性和抑制性传入冲动的相互作用进行的。

    In the central auditory system , the information of the frequency , intensity , temporal and spectral properties involved in the sound signal is processed through the complex integration of the excitatory and inhibitory interaction of the neural circuits .

  18. 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 .

  19. 目的研究在爪蟾卵母细胞中表达的大鼠耳蜗核电压依赖性离子通道的特性,为揭示感音神经性聋听觉中枢离子通道的变化奠定方法学基础。

    Objective To study the properties of voltage dependent ion channels expressed in Xenopus oocytes by mRNA from rat cochlear nucleus and to lay a methodological foundation for studying the changes of ion channels in auditory centre with sensorineural hearing loss .

  20. 结论MEG可灵敏、客观地检测出急性脑梗死患者体感和听觉皮层中枢功能损伤。

    Conclusion MEG can provides objective and sensitive parameters to evaluate the function of cortex in patients with acute cerebral infarction .

  21. 目的:研究P物质(SP)受体(SPR)在豚鼠听觉脑干中枢及内侧膝状休(MGB)的分布。

    Objective : To investigate the distribution of substance P receptor ( SPR ) in the brain stem auditory centre and medial geniculate body ( MGB ) of guinea pigs .

  22. 急性脑梗死听觉皮层中枢脑磁图特征

    Characteristics of auditory evoked magnetic fields in patients with acute cerebral infarction by magnetoencephalography

  23. 宽频噪音对AD模型鼠听觉记忆及中枢机制的研究

    Studies on Central Mechanism of Auditory Memory for AD Model Rat

  24. 先天性耳聋婴幼儿听觉及语言中枢等相关脑区变化的fMRI研究

    An fMRI Study of Cerebral Functional Cortex in Infants Congenital Hearing Loss

  25. 幼儿园英语活动中教师的语言使用对幼儿学习的影响先天性耳聋婴幼儿听觉及语言中枢等相关脑区变化的fMRI研究

    Impact of Teachers Talk on Children s Learning in Preschool Bilingual Activities ; An fMRI Study of Cerebral Functional Cortex in Infants Congenital Hearing Loss

  26. 7%的患者ECG示窦性心动过缓,26.7%的患者头颅MRI检查示小脑萎缩,10%的患者脑干听觉诱发电位中枢段检查异常。

    ECG showed that 6.7 % of patients had sinus bradycardia ; MRI scan showed 26.7 % of patients had atrophic cerebellums brainstem auditory evoked potential ( BAEP ) showed 10 % of patients were abnormal in central segment .

  27. 在生后发育过程中,BPD主要影响脑干听觉通路近中枢部分的功能成熟及发育,而对外周部分影响不大。

    During postnatal development , BPD may affected the maturation and development in central parts of brainstem auditory pathway with little effect on peripheral ones .

  28. 母语为汉语正常人听觉性语言中枢的定位

    Mapping Sensory 's Area of the Health Speakers Whose Native Language are Chinese

  29. 发声与听觉的高位中枢有直接的纤维联系。

    It shows that there are direct neural connections between the high centre of audition and the high center of vocal control .

  30. 结论母语为汉语的正常人听觉性语言中枢与经典的语言中枢基本相符,即听觉性语言中枢定位于左侧颞中回、颞上回、缘上回。

    Conclusion The linguistic center of auditory function in Chinese people coincides with the classic language center , ie. is located at middle temporal gyrus , superior temporal gyrus and supramarginal gyrus .