Functional Connectivity in Chronic Nonbothersome Tinnitus Following Acoustic Trauma: A Seed-Based Resting-State Functional Magnetic Resonance Imaging Study.

Tinnitus and its mechanisms are an ongoing subject of interrogation in the neuroscientific community. Although most current models agree that it encompasses multiple structures within and outside the auditory system, evidence provided in the literature suffers from a lack of convergence. To further our understanding of contributions to tinnitus lying outside the auditory system, we explored a new model based on a proprioceptive hypothesis specifically in subjects experiencing chronic nonbothersome tinnitus due to acoustic trauma. The present study addresses the role of the right operculum 3 (OP3) involved in this model. It also investigates classical models of tinnitus. A seed-based resting-state magnetic resonance imaging study explored the functional connectivity in an acoustic trauma group presenting slight to mild nonbothersome chronic tinnitus and compared it with a control group. Group differences were found with two networks: with the sensorimotor-auditory and the frontoparietal, but not with the default mode network nor the limbic regions. In the auditory pathway, the inferior colliculus displayed group differences in connectivity with the right superior parietal lobule. Exploratory analysis elicited a significant increase in connectivity between two seeds in the right OP3 and two mirror regions of the dorsal prefrontal cortex, thought to correspond to the human homologue of the premotor ear-eye field bilaterally and the inferior parietal lobule involved in proprioception, in the tinnitus group. These new findings support the view that acoustic trauma tinnitus could bear a proprioceptive contribution and that a permanent cognitive control is required to filter out this chronic phantom percept.