Abstract

Spontaneous neural activity in the auditory nerve fibers and in auditory cortex in healthy animals is discussed with respect to the question: Is spontaneous activity noise or information carrier? The studies reviewed suggest strongly that spontaneous activity is a carrier of information. Subsequently, I review the numerous findings in the impaired auditory system, particularly with reference to noise trauma and tinnitus. Here the common assumption is that tinnitus reflects increased noise in the auditory system that among others affects temporal processing and interferes with the gap-startle reflex, which is frequently used as a behavioral assay for tinnitus. It is, however, more likely that the increased spontaneous activity in tinnitus, firing rate as well as neural synchrony, carries information that shapes the activity of downstream structures, including non-auditory ones, and leading to the tinnitus percept. The main drivers of that process are bursting and synchronous firing, which facilitates transfer of activity across synapses, and allows formation of auditory objects, such as tinnitus.

Highlights

  • Reviewed by: Artur Luczak, University of Lethbridge, Canada Daniel Llano, University of Illinois at Urbana-Champaign, USA

  • Spontaneous neural activity in the auditory nerve fibers and in auditory cortex in healthy animals is discussed with respect to the question: Is spontaneous activity noise or information carrier? The studies reviewed suggest strongly that spontaneous activity is a carrier of information

  • The common assumption is that tinnitus reflects increased noise in the auditory system that among others affects temporal processing and interferes with the gap-startle reflex, which is frequently used as a behavioral assay for tinnitus

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Summary

Introduction

Reviewed by: Artur Luczak, University of Lethbridge, Canada Daniel Llano, University of Illinois at Urbana-Champaign, USA. Eggermont (1992) recorded at least 15 min of spontaneous activity from each of 312 neurons in 9 adult ketamineanesthetized cats from all layers of primary auditory cortex, and studied their pair-wise cross-correlation.

Results
Conclusion

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