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Abstract
The auditory steady-state response (ASSR) has been used to detect auditory processing deficits in patients with psychiatric disorders. However, the methodology of ASSR recording from the brain surface has not been standardized in preclinical studies, limiting its use as a translational biomarker. The sites of maximal ASSR in humans are the vertex and/or middle frontal area, although it has been suggested that the auditory cortex is the source of the ASSR. We constructed and validated novel methods for ASSR recording using a switchable pedestal which allows ASSR recording alternatively from temporal or parietal cortex with a wide range of frequencies in freely moving rats. We further evaluated ASSR as a translational tool by assessing the effect of ketamine. The ASSR measured at parietal cortex did not show clear event-related spectral perturbation (ERSP) or inter-trial coherence (ITC) in any frequency bands or a change with ketamine. In contrast, the ASSR at temporal cortex showed clear ERSP and ITC where 40 Hz was maximal in both gamma-band frequencies. Ketamine exerted a biphasic effect in ERSP at gamma bands. These findings suggest that temporal cortex recording with a wide frequency range is a robust methodology to detect ASSR, potentially enabling application as a translational biomarker in psychiatric and developmental disorders.
Highlights
(EEG)-detectable event-related potential (ERP) analysis can reveal sensory processing deficits in patients with psychiatric disorders1
We assessed the effect of ketamine over a broad range of auditory steady-state response (ASSR) (ERSP and inter-trial coherence (ITC)) frequencies in two brain areas using a switchable pedestal to establish this method as a bridge between rats and humans and test its utility as a tool for translational and reverse-translational approach between preclinical and clinical studies
In the gamma band frequency, 40 Hz ASSR showed the most robust response in both event-related spectral perturbation (ERSP) and ITC, ITC in 20 Hz ASSR showed the maximal response of all frequencies measured (Fig. 2C,D)
Summary
(EEG)-detectable event-related potential (ERP) analysis can reveal sensory processing deficits in patients with psychiatric disorders. ASSR with various different stimulation has been used successfully to drive and examine neural activity across a wide frequency range in healthy volunteers, and in case-control studies for schizophrenia. ASSR with various different stimulation has been used successfully to drive and examine neural activity across a wide frequency range in healthy volunteers, and in case-control studies for schizophrenia4,28 These ASSR are sensitive to pharmacological manipulation. We assessed the effect of ketamine over a broad range of ASSR (ERSP and ITC) frequencies in two brain areas using a switchable pedestal to establish this method as a bridge between rats and humans and test its utility as a tool for translational and reverse-translational approach between preclinical and clinical studies
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