TY - JOUR T1 - Phantom auditory perception (tinnitus) is characterised by stronger anticipatory auditory predictions JF - bioRxiv DO - 10.1101/869842 SP - 869842 AU - Marta Partyka AU - Gianpaolo Demarchi AU - Sebastian Roesch AU - Nina Suess AU - William Sedley AU - Winfried Schlee AU - Nathan Weisz Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/12/10/869842.abstract N2 - How phantom perceptions arise and the factors that make individuals prone to such experiences are not well understood. An attractive phenomenon to study these questions is tinnitus, a very common auditory phantom perception which is not explained by hyperactivity in the auditory pathway alone. Our framework posits that a predisposition to developing (chronic) tinnitus is dependent on individual traits relating to the formation and utilization of sensory predictions. Predictions of auditory stimulus frequency (remote from tinnitus frequency) were studied using a paradigm parametrically modulating regularity (i.e. predictability) of tone sequences and applying decoding techniques on magnetoencephalographic (MEG) data. For processes likely linked to short-term memory, individuals with tinnitus showed an enhanced anticipatory prediction pattern associated with increasing sequence regularity. In contrast, individuals without tinnitus engaged the same processes following the onset of the to-be-decoded sound. We posit that this tendency to optimally anticipate static and changing auditory inputs may determine which individuals faced with persistent auditory pathway hyperactivity factor it into auditory predictions, and thus perceive it as tinnitus. While our study constitutes a first step relating vulnerability to tinnitus with predictive processing, longitudinal studies are needed to confirm the predisposition model of tinnitus development. ER -