...不同时期耳蜗电活动的变化 chlear Microphone,CM),总和电位(Summating Potential,SP)和复合动作电位(Compound Action Potential,CAP)。结果:膜迷路积水后,各频率的CM均受到明显抑制,主要以低频为重。
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目的:探讨电诱发听神经复合动作电位(ECAP)的特点及在人工耳蜗临床中的应用价值和意义。
Objective:To study the feasibility and clinical applicability of electrically evoked auditory nerve compound action potentials (ECAP) in young patients with Nucleus CI24M cochlear implants.
所有患儿的复合肌肉动作电位波幅显著下降,伴有远端潜伏期和运动传导速度轻度改变。
In all cases, amplitude of muscle response was significantly decreased, with prolonged distal latency and slowed conduction velocity.
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