Frequency following brain oscillations evoked by vibrotactile stimulation of the distal phalanx in normal subjects

2009 14th National Biomedical Engineering Meeting Pub Date : 2009-05-20 DOI:10.1109/BIYOMUT.2009.5130376

Duygu Torun, M. Yıldız, Burak Guclu

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Abstract

The sensory response upon vibrotactile stimuli is still not entirely understood. Previously, the responses of single units from mechanoreceptive afferents and cortical neurons have been studied. There is a thorough psychophysical literature on judgements of the presence, magnitude, and frequency of vibrotactile stimuli [1–3]. However, non-invasive recording of evoked responses on the scalp have solely been determined for electrical stimuli.In this study, psychophysical detection thresholds of adult subjects were measured at various mechanical frequencies. These values were found to be consistent with the literature. To measure the frequency following brain responses, stimulus intensities were determined based on psychophysical sensation levels. Data recorded from the somatosensory cortex area via electrodes placed on scalp, were analysed with wavelet transform. The results show that, as the mechanical stimulus intensity was increased, the background activity was suppressed and the frequency-following activity during stimulus period increased. This finding was statistically significant

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正常人远端指骨触觉振动刺激引起的脑振荡的频率

对振动触觉刺激的感觉反应仍未完全理解。在此之前，已经研究了来自机械感受传入和皮质神经元的单个单元的反应。关于触觉振动刺激的存在、大小和频率的判断，有大量的心理物理学文献[1-3]。然而，头皮上的诱发反应的非侵入性记录仅被确定为电刺激。在本研究中，测量了成人受试者在不同机械频率下的心理物理检测阈值。这些值被发现与文献一致。为了测量大脑反应后的频率，刺激强度是根据心理物理感觉水平确定的。通过放置在头皮上的电极从体感觉皮层区域记录的数据，用小波变换进行分析。结果表明，随着机械刺激强度的增加，刺激期的背景活动被抑制，频率跟随活动增加。这一发现具有统计学意义

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2009 14th National Biomedical Engineering Meeting

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