Abstract

BackgroundPrevious work has identified a hierarchical organization of neural oscillations that supports performance of complex cognitive and perceptual tasks, and can be indexed with phase-amplitude coupling (PAC) between low- and high-frequency oscillations. Our aim was to employ enhanced source localization afforded by magnetoencephalography (MEG) to expand on earlier reports of intact auditory cortical PAC in schizophrenia and to investigate how PAC may evolve over the early and chronic phases of the illness.MethodsIndividuals with early schizophrenia (n=12) (≤5 years of illness duration), chronic schizophrenia (n=16) (>5 years of illness duration) and healthy comparators (n = 17) performed the auditory steady state response (ASSR) to 40, 30, and 20 Hz stimuli during MEG recordings. We estimated amplitude and PAC on the MEG ASSR source localized to the auditory cortices.ResultsGamma amplitude during 40-Hz ASSR exhibited a significant group by hemisphere interaction, with both patient groups showing reduced right hemisphere amplitude and no overall lateralization in contrast to the right hemisphere lateralization demonstrated in controls. We found significant PAC in the right auditory cortex during the 40-Hz entrainment condition relative to baseline, however, PAC did not differ significantly between groups.ConclusionsIn the current study, we demonstrated an apparent sparing of ASSR-related PAC across phases of the illness, in contrast with impaired cortical gamma oscillation amplitudes. The distinction between our PAC and evoked ASSR findings supports the notion of separate but interacting circuits for the generation and maintenance of sensory gamma oscillations. The apparent sparing of PAC in both early and chronic schizophrenia patients could imply that the neuropathology of schizophrenia differentially affects these mechanisms across different stages of the disease. Future studies should investigate the distinction between PAC during passive tasks and more cognitively demanding task such as working memory so that we can begin to understand the influence of schizophrenia neuropathology on the larger framework for modulating neurocomputational capacity.

Highlights

  • The neurophysiological basis of sensory and cognitive impairments in schizophrenia has been intensely investigated in order to aid biomarker development for early illness detection and inform the development of novel treatment approaches

  • phase-amplitude coupling (PAC) is a form of crosstalk between different frequency oscillations, with the high-frequency amplitude being modulated by the phase of a lower frequency oscillation

  • This study aims to map the trajectory of PAC changes over the different illness phases by investigating both early and chronic phase schizophrenia patients

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Summary

Introduction

The neurophysiological basis of sensory and cognitive impairments in schizophrenia has been intensely investigated in order to aid biomarker development for early illness detection and inform the development of novel treatment approaches. Cortical oscillations are widely reported to be disturbed in the illness, and lend insight regarding the integrity of neural network activity related to perception and cognition [1]. Core cognitive disturbances, such as impaired cognitive control, are associated with gamma (30–50 Hz) oscillatory impairments, and reflect the disrupted functioning of pyramidal cells and parvalbumin (PV) interneurons in schizophrenia [2,3,4,5,6,7]. Our aim was to employ enhanced source localization afforded by magnetoencephalography (MEG) to expand on earlier reports of intact auditory cortical PAC in schizophrenia and to investigate how PAC may evolve over the early and chronic phases of the illness

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