Litcius/Paper detail

Tinnitus-frequency specific activity and connectivity: A MEG study

Vasiliki Salvari, Daniela Korth, Evangelos Paraskevopoulos, Andreas Wollbrink, Daniela Ivanšić, Orlando Guntinas‐Lichius, Carsten M. Klingner, Christo Pantev, Christian Dobel

2023NeuroImage Clinical19 citationsDOIOpen Access PDF

Abstract

Tinnitus pathophysiology has been associated with an atypical cortical network that involves functional changes in auditory and non-auditory areas. Numerous resting-state studies have replicated a tinnitus brain network to be significantly different from healthy-controls. Yet it is still unknown whether the cortical reorganization is attributed to the tinnitus frequency specifically or if it is frequency-irrelevant. Employing magnetoencephalography (MEG), the current study aimed to identify frequency-specific activity patterns by using an individual tinnitus tone (TT) and a 500 Hz-control tone (CT) as auditory stimuli, across 54 tinnitus patients. MEG data were analyzed in a data-driven approach employing a whole-head model in source space and in sources' functional connectivity. Compared to the CT, the event related source space analysis revealed a statistically significant response to TT involving fronto-parietal regions. The CT mainly involved typical auditory activation-related regions. A comparison of the cortical responses to a healthy control group that underwent the same paradigm rejected the alternative interpretation that the frequency-specific activation differences were due to the higher frequency of the TT. Overall, the results suggest frequency-specificity of tinnitus-related cortical patterns. In line with previous studies, we demonstrated a tinnitus-frequency specific network comprising left fronto-temporal, fronto-parietal and tempo-parietal junctions.

Topics & Concepts

MagnetoencephalographyTinnitusAudiologyNeurosciencePsychologyBrain activity and meditationAuditory cortexFunctional magnetic resonance imagingElectroencephalographyMedicineHearing, Cochlea, Tinnitus, GeneticsHearing Loss and RehabilitationNeuroscience and Music Perception