Effects of Stimulus Intensity and Frequency on the Force and Timing of Sensorimotor Synchronisation

N. P. Todd, P. Keller, S. Govender, J. Colebatch
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Abstract

We report an experiment to investigate possible vestibular effects on finger tapping to an auditory anapaest rhythm. In a sample of 10 subjects, index finger acceleration and tapping force were recorded along with extensor/flexor activity and the associated electroencephalographic activity measured at central and cerebellar surface electrodes. In a prior session with a standard short air-conducted 500-Hz pip, vestibular evoked myogenic potential thresholds were measured and subsequently used to set the acoustic intensity. During the main experiment subjects were asked to synchronise tapping to the pips arranged in the anapaest at two different frequencies, 500 Hz vs 5 kHz, so that only the low-frequency high-intensity condition was a vestibular, as well as an auditory stimulus. We hypothesised that a vestibular effect would manifest in an interaction between the frequency and intensity factors for a range of dependent measures of tapping performance. No clear evidence was found for vestibular effects, but this was likely due to the confounding effects of an independent effect of intensity and the relative weakness of the acoustic vestibular stimulus. However, the data did show novel evidence for two distinct timing processes for the flexion and extension stages of a tap cycle and two distinct timing strategies, which we refer to as ‘staccato’ and ‘legato’, characterised by different profiles of force and extension.
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刺激强度和频率对感觉运动同步力和时间的影响
我们报告了一项实验,以研究前庭对手指敲击听觉刺激节律的可能影响。在10名受试者的样本中,记录食指加速度和敲击力,以及在中央和小脑表面电极测量的伸肌/屈肌活动和相关脑电图活动。在使用标准短空气传导500Hz pip的先前会话中,测量前庭诱发的肌源性电位阈值,随后用于设置声学强度。在主要实验过程中,受试者被要求在两个不同的频率(500 Hz和5 kHz,所以只有低频高强度的情况是前庭,以及听觉刺激。我们假设前庭效应将表现为一系列依赖性敲击性能测量的频率和强度因素之间的相互作用。没有发现前庭效应的明确证据,但这可能是由于强度的独立效应和前庭声刺激的相对较弱的混杂效应。然而,数据确实显示了敲击周期的屈曲和伸展阶段有两个不同的计时过程和两种不同的计时策略的新证据,我们称之为“断奏”和“连奏”,其特征是力和伸展的不同轮廓。
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来源期刊
CiteScore
1.60
自引率
14.30%
发文量
23
期刊介绍: Timing & Time Perception aims to be the forum for all psychophysical, neuroimaging, pharmacological, computational, and theoretical advances on the topic of timing and time perception in humans and other animals. We envision a multidisciplinary approach to the topics covered, including the synergy of: Neuroscience and Philosophy for understanding the concept of time, Cognitive Science and Artificial Intelligence for adapting basic research to artificial agents, Psychiatry, Neurology, Behavioral and Computational Sciences for neuro-rehabilitation and modeling of the disordered brain, to name just a few. Given the ubiquity of interval timing, this journal will host all basic studies, including interdisciplinary and multidisciplinary works on timing and time perception and serve as a forum for discussion and extension of current knowledge on the topic.
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