刺激极性和伪迹减少方法对电诱发复合动作电位的影响。
Effects of Stimulus Polarity and Artifact Reduction Method on the Electrically Evoked Compound Action Potential.
作者信息
Hughes Michelle L, Goehring Jenny L, Baudhuin Jacquelyn L
机构信息
Center for Hearing Research, Boys Town National Research Hospital, Omaha, Nebraska, USA.
出版信息
Ear Hear. 2017 May/Jun;38(3):332-343. doi: 10.1097/AUD.0000000000000392.
OBJECTIVE
Previous research from our laboratory comparing electrically evoked compound action potential (ECAP) artifact reduction methods has shown larger amplitudes and lower thresholds with cathodic-leading forward masking (CathFM) than with alternating polarity (AltPol). One interpretation of this result is that the anodic-leading phase used with AltPol elicits a less excitatory response (in contrast to results from recent studies with humans), which when averaged with responses to cathodic-leading stimuli, results in smaller amplitudes. Another interpretation is that the latencies of the responses to anodic- and cathodic-leading pulses differ, which when averaged together, result in smaller amplitudes than for either polarity alone due to temporal smearing. The purpose of this study was to separate the effects of stimulus polarity and artifact reduction method to determine the relative effects of each.
DESIGN
This study used a within-subjects design. ECAP growth functions were obtained using CathFM, anodic-leading forward masking (AnodFM), and AltPol for 23 CI recipients (N = 13 Cochlear and N = 10 Advanced Bionics). N1 latency, amplitude, slope of the amplitude growth function, and threshold were compared across methods. Data were analyzed separately for each manufacturer due to inherent differences between devices.
RESULTS
N1 latencies were significantly shorter for AnodFM than for CathFM and AltPol for both Cochlear and Advanced Bionics participants. Amplitudes were larger for AnodFM than for either CathFM or AltPol for Cochlear recipients; amplitude was not significantly different across methods for Advanced Bionics recipients. Slopes were shallowest for CathFM for Cochlear subjects, but were not significantly different among methods for Advanced Bionics subjects. Thresholds with AltPol were significantly higher than both FM methods for Cochlear recipients; there was no difference in threshold across methods for the Advanced Bionics recipients.
CONCLUSIONS
For Cochlear devices, the smaller amplitudes and higher thresholds observed for AltPol seem to be the result of latency differences between polarities. These results suggest that AltPol is not ideal for managing stimulus artifact for ECAP recordings. For the Advanced Bionics group, there were no significant differences among methods for amplitude, slope, or threshold, which suggests that polarity and artifact reduction method have little influence in these devices. We postulate that polarity effects are minimized for symmetrical biphasic pulses that lack an interphase gap, such as those used with Advanced Bionics devices; however, this requires further investigation.
目的
我们实验室之前比较电诱发复合动作电位(ECAP)伪迹减少方法的研究表明,与交替极性(AltPol)相比,阴极领先的前向掩蔽(CathFM)具有更大的幅度和更低的阈值。对这一结果的一种解释是,与AltPol一起使用的阳极领先相位引发的兴奋性反应较小(与最近对人类的研究结果相反),当与对阴极领先刺激的反应进行平均时,会导致幅度较小。另一种解释是,对阳极和阴极领先脉冲的反应潜伏期不同,当一起平均时,由于时间模糊,导致的幅度比单独使用任何一种极性时都小。本研究的目的是分离刺激极性和伪迹减少方法的影响,以确定每种方法的相对效果。
设计
本研究采用受试者内设计。使用CathFM、阳极领先的前向掩蔽(AnodFM)和AltPol,对23名人工耳蜗植入者(N = 13名科利耳公司产品使用者和N = 10名先进生物电子公司产品使用者)获得了ECAP增长函数。比较了不同方法之间的N1潜伏期、幅度、幅度增长函数的斜率和阈值。由于设备之间存在固有差异,因此对每个制造商的数据进行了单独分析。
结果
对于科利耳公司和先进生物电子公司的参与者,AnodFM的N1潜伏期明显短于CathFM和AltPol。对于科利耳公司的植入者,AnodFM的幅度大于CathFM或AltPol;对于先进生物电子公司的植入者,不同方法之间的幅度没有显著差异。对于科利耳公司的受试者,CathFM的斜率最浅,但对于先进生物电子公司的受试者,不同方法之间的斜率没有显著差异。对于科利耳公司的植入者,AltPol的阈值明显高于两种FM方法;对于先进生物电子公司的植入者,不同方法之间的阈值没有差异。
结论
对于科利耳公司的设备,AltPol观察到的较小幅度和较高阈值似乎是极性之间潜伏期差异的结果。这些结果表明,AltPol对于管理ECAP记录的刺激伪迹并不理想。对于先进生物电子公司的组,幅度、斜率或阈值在不同方法之间没有显著差异,这表明极性和伪迹减少方法对这些设备的影响很小。我们推测,对于缺乏相间间隙的对称双相脉冲,如先进生物电子公司设备使用的脉冲,极性效应会最小化;然而,这需要进一步研究。
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