Author:
Nakamura Tomoya,Dinh Trong Ha,Asai Makoto,Nishimaru Hiroshi,Matsumoto Jumpei,Setogawa Tsuyoshi,Ichijo Hiroyuki,Honda Sokichi,Yamada Hiroshi,Mihara Takuma,Nishijo Hisao
Abstract
Abstract
Background
Auditory steady-state responses (ASSRs) are periodic evoked responses to constant periodic auditory stimuli, such as click trains, and are suggested to be associated with higher cognitive functions in humans. Since ASSRs are disturbed in human psychiatric disorders, recording ASSRs from awake intact macaques would be beneficial to translational research as well as an understanding of human brain function and its pathology. However, ASSR has not been reported in awake macaques.
Results
Electroencephalograms (EEGs) were recorded from awake intact macaques, while click trains at 20–83.3 Hz were binaurally presented. EEGs were quantified based on event-related spectral perturbation (ERSP) and inter-trial coherence (ITC), and ASSRs were significantly demonstrated in terms of ERSP and ITC in awake intact macaques. A comparison of ASSRs among different click train frequencies indicated that ASSRs were maximal at 83.3 Hz. Furthermore, analyses of laterality indices of ASSRs showed that no laterality dominance of ASSRs was observed.
Conclusions
The present results demonstrated ASSRs, comparable to those in humans, in awake intact macaques. However, there were some differences in ASSRs between macaques and humans: macaques showed maximal ASSR responses to click frequencies higher than 40 Hz that has been reported to elicit maximal responses in humans, and showed no dominant laterality of ASSRs under the electrode montage in this study compared with humans with right hemisphere dominance. The future ASSR studies using awake intact macaques should be aware of these differences, and possible factors, to which these differences were ascribed, are discussed.
Funder
Astellas Pharma
Takeda Science Foundation
University of Toyama
Publisher
Springer Science and Business Media LLC
Subject
Cellular and Molecular Neuroscience,General Neuroscience
Cited by
4 articles.
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