声电联合刺激在言语识别中的应用。
Combining acoustic and electric stimulation in the service of speech recognition.
机构信息
Department of Speech and Hearing Sciences, Arizona State University, Tempe, USA.
出版信息
Int J Audiol. 2010 Dec;49(12):912-9. doi: 10.3109/14992027.2010.509113. Epub 2010 Sep 27.
Abstract
The majority of recently implanted, cochlear implant patients can potentially benefit from a hearing aid in the ear contralateral to the implant. When patients combine electric and acoustic stimulation, word recognition in quiet and sentence recognition in noise increase significantly. Several studies suggest that the acoustic information that leads to the increased level of performance resides mostly in the frequency region of the voice fundamental, e.g. 125 Hz for a male voice. Recent studies suggest that this information aids speech recognition in noise by improving the recognition of lexical boundaries or word onsets. In some noise environments, patients with bilateral implants can achieve similar levels of performance as patients who combine electric and acoustic stimulation. Patients who have undergone hearing preservation surgery, and who have electric stimulation from a cochlear implant and who have low-frequency hearing in both the implanted and not-implanted ears, achieve the best performance in a high noise environment.
摘要
大多数最近植入人工耳蜗的患者,都有可能从植入侧对侧耳中的助听器中受益。当患者将电刺激和声学刺激相结合时,其在安静环境下的单词识别和噪声环境下的句子识别能力会显著提高。多项研究表明,导致性能提升的主要声学信息位于语音基频的频率范围内,例如男性声音的 125Hz。最近的研究表明,该信息通过提高对词汇边界或单词起始的识别,有助于噪声中的语音识别。在某些噪声环境中,双侧植入的患者可以达到与电声联合刺激患者相似的性能水平。进行了听力保护手术的患者,使用人工耳蜗进行电刺激,并且在植入耳和非植入耳中都具有低频听力,在高噪声环境中可获得最佳性能。
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