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| 等调制深度时间调制转换曲线评估豚鼠下丘和听皮层的时间分辨率 | |
| 引用本文: | 冯艳梅,殷善开,王坚. 等调制深度时间调制转换曲线评估豚鼠下丘和听皮层的时间分辨率[J]. 中华耳鼻咽喉头颈外科杂志, 2007, 42(10): 765-769 |
| 作者姓名: | 冯艳梅 殷善开 王坚 |
| 作者单位: | 1. 医学院,耳鼻咽喉科研究所,上海交通大学附属第六人民医院耳鼻咽喉科,上海交通大学,200233 2. Dalhousie University, School of Human Comunication Disorders, Canada |
| 摘 要: | 目的探讨以听觉系统对调幅信号响应幅值随调制频率的改变计算等调制深度时间调制转换函数(temporal modulation transfer function,TMTF)来客观评估听觉系统时间分辨率的可行性。方法豚鼠下丘和听皮层分别埋植慢性电极,记录正弦调幅纯音(载频为8kHz,调制深度固定为100%)诱发电位,反应幅值经快速傅立叶变换(fast Fourier transform,F丌)得出相对反应幅值,并以相对反应幅值和调制频率绘制出等调制深度TMTF。记录正弦调幅纯音每个调制频率的调制深度从100%至10%的诱发电位,得出与传统的调制深度阈值TMTF方法相当的等幅值TMTF,与等调制深度TMTF相比较,判断等调制深度TMTF方法的有效性。结果豚鼠下丘和听皮层的等调制深度TMTF与等幅值TMTF都分别表现为带通和低通特性;等调制深度TMTF的截止频率与等幅值TMTF的截止频率差异无统计学意义(P值均〉0.05)。豚鼠听皮层等调制深度TMTF的截止频率与传统的行为学结果基本一致。结论以100%调制深度的正弦调幅纯音诱发反应幅值与调制频率绘制等调制深度TMTF是一种有效的客观评估听觉系统时间分辨率的方法,其中豚鼠听皮层的等调制深度TMTF可用于行为学预测。 |
| 关 键 词: | 下丘 听觉皮质 诱发电位 听觉 |
| 修稿时间: | 2007-02-01 |
Objectively evaluating auditory temporal resolution by iso-modulation depth temporal modulation transfer function in inferior colliculus and auditory cortex of guinea pigs |
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| FENG Yan-mei,YIN Shan-kai,WANG Jian. Objectively evaluating auditory temporal resolution by iso-modulation depth temporal modulation transfer function in inferior colliculus and auditory cortex of guinea pigs[J]. Chinese journal of otorhinolaryngology head and neck surgery, 2007, 42(10): 765-769 | |
| Authors: | FENG Yan-mei YIN Shan-kai WANG Jian |
| Affiliation: | Institute of Otorhinolaryngology, Shanghai Jiaotong University, Shanghai 200233, China |
| Abstract: | OBJECTIVE: To explore the feasibility to evaluate objectively auditory temporal resolution using the iso-modulation depth temporal modulation transfer function (TMTF) derived from the amplitude of evoked response to sinusoidally modulated signals. METHODS: Chronic electrodes were implanted in inferior collilculus and auditory cortex of guinea pigs. We recorded the evoked response to sinusoidally modulated tones with modulation frequency being varied from 20 to 400 Hz and modulation depth fixed at 100%. The response amplitude in uV was converted into relative amplitude using the fast Fourier transform (FFT) function provided by Biosig software, and then the iso-modulation depth TMTF was plotted with the relative amplitude changed with modulation frequency. Then we recorded the evoked response to the sinusoidally modulated tones with modulation depth being varied from 100% to 10% and derived the iso-amplitude TMTF comparable to conventional modulation depth threshold TMTF. The derived iso-amplitude TMTF was compared to iso-modulation depth TMTF to determine the validility of iso-modulation depth TMTF. RESULTS: The iso-modulation-depth TMTF and iso-amplitude TMTF in inferior colliculus and auditory cortex of guinea pigs represented respectively bandpass and lowpass characteristic. The cut-off frequency calculated from the two TMTF methods didn't differ significantly and the cut-off frequency derived from auditory cortex iso-modulation depth TMTF was consistent with behavioral results. CONCLUSIONS: The TMTF plotted with the response amplitude to sinusoidally modulated tones with the modulation depth fixed at 100% and the modulation frequency was a valid method to evaluate objectively auditory temporal resolution. |
| Keywords: | Inferior colliculus Auditory cortex Evoked potentials, auditory |
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