Garrett Cardon, Madelyn Cate, Sarah Cordingley, Brittany Bown
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引用次数: 0
摘要
目的:自闭症患者经常会遇到感官处理方面的困难。这些困难会严重影响重要功能和生活质量。我们才刚刚开始了解非典型感觉处理的神经机制。然而,听觉脑干反应(ABR)是测量听觉功能的一种既定方法。迄今为止,ABR 主要被假定为自闭症早期检测/诊断的一种手段,但它也有可能帮助研究自闭症患者的感觉处理过程:因此,我们研究了自闭症儿童和发育正常儿童在不同刺激和强度条件下的标准 ABR 波形特征。我们还检查了耳内波形交叉相关性和耳际交叉相关性(IACC),以评估参与者 ABR 的可复制性和同步性,这是在该人群中进行 ABR 分析的一种新方法:我们观察到自闭症组和典型发育组在不同条件下的峰值潜伏期(尤其是第三波和第五波)和峰间潜伏期更长。在交叉相关性或 IACC 方面没有统计学意义的结果:这些结果表明,自闭症儿童和发育正常儿童的脑干听觉功能可能略有不同,但大多相似。我们将从这些发现对感觉处理和未来用途的影响角度对其进行讨论。
Auditory Brainstem Response in Autistic Children: Implications for Sensory Processing.
Purpose: Autistic individuals frequently experience sensory processing difficulties. Such difficulties can significantly impact important functions and quality of life. We are only beginning to understand the neural mechanisms of atypical sensory processing. However, one established way to measure aspects of auditory function is the auditory brainstem response (ABR). While ABR has been primarily hypothesized thus far as a means of early detection/diagnosis in autism, it has the potential to aid in examining sensory processing in this population.
Method: Thus, we investigated standard ABR waveform characteristics in age-matched groups of autistic and typically developing children during various stimulus and intensity conditions. We also examined within ear waveform cross correlations and inter-aural cross correlations (IACC) to assess replicability and synchrony of participants' ABRs, which was a novel approach to ABR analysis in this population.
Results: We observed longer peak latencies (esp. wave III and V) and interpeak latencies in the autism and typically developing groups in different conditions. There were no statistically significant results in cross correlation or IACC.
Conclusions: These results suggest that brainstem auditory function may differ slightly, but is mostly similar, between autistic and typically developing children. We discuss these findings in terms of their implications for sensory processing and future utility.
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