A 7 Tesla fMRI investigation of human tinnitus percept in cortical and subcortical auditory areas

Publication date

2020

Authors

Berlot, Eva
Arts, Remo
Smit, Jasper
George, Erwin
Gulban, Omer Faruk
Moerel, Michelle
Stokroos, Robert JORCID 0000-0001-8037-2573ISNI 0000000392507919
Formisano, Elia
De Martino, Federico

Editors

Advisors

Supervisors

Document Type

Article

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License

cc_by_nc_nd

Abstract

Tinnitus is a clinical condition defined by hearing a sound in the absence of an objective source. Early experiments in animal models have suggested that tinnitus stems from an alteration of processing in the auditory system. However, translating these results to humans has proven challenging. One limiting factor has been the insufficient spatial resolution of non-invasive measurement techniques to investigate responses in subcortical auditory nuclei, like the inferior colliculus and the medial geniculate body (MGB). Here we employed ultra-high field functional magnetic resonance imaging (UHF-fMRI) at 7 Tesla to investigate the frequency-specific processing in sub-cortical and cortical regions in a cohort of six tinnitus patients and six hearing loss matched controls. We used task-based fMRI to perform tonotopic mapping and compared the magnitude and tuning of frequency-specific responses between the two groups. Additionally, we used resting-state fMRI to investigate the functional connectivity. Our results indicate frequency-unspecific reductions in the selectivity of frequency tuning that start at the level of the MGB and continue in the auditory cortex, as well as reduced thalamocortical and cortico-cortical connectivity with tinnitus. These findings suggest that tinnitus may be associated with reduced inhibition in the auditory pathway, potentially leading to increased neural noise and reduced functional connectivity. Moreover, these results indicate the relevance of high spatial resolution UHF-fMRI for the investigation of the role of sub-cortical auditory regions in tinnitus.

Keywords

Auditory pathway, Resting-state connectivity, Tinnitus, Tonotopic maps, Ultra-high field MRI, Clinical Neurology, Neurology, Cognitive Neuroscience, Radiology Nuclear Medicine and imaging, Journal Article

Citation

Berlot, E, Arts, R, Smit, J, George, E, Gulban, O F, Moerel, M, Stokroos, R, Formisano, E & De Martino, F 2020, 'A 7 Tesla fMRI investigation of human tinnitus percept in cortical and subcortical auditory areas', NeuroImage. Clinical, vol. 25, 102166. https://doi.org/10.1016/j.nicl.2020.102166