, 2008). For these purposes, find more studying individuals with intermittent tinnitus, or using imaging techniques that are able to measure metabolic activity directly (e.g., PET), may be particularly useful. Several human imaging studies of tinnitus have reported elevated activity in pSTC in association with the tinnitus sensation itself, when tinnitus loudness was modulated either through administration of lidocaine
(Reyes et al., 2002) or by facial movements (a relatively rare tinnitus subtype; Giraud et al., 1999 and Lockwood et al., 1998). Though its exact role is debated, posterior auditory cortex is thought to subserve relatively complex auditory functions (Griffiths and Warren, 2002 and Rauschecker and Scott, 2009), making it an unlikely first site for the generation of tinnitus sensations. Instead, pSTC hyperactivity could reflect the patients’ need to separate the tinnitus signal from the remainder of the acoustic
environment. This would be consistent with evidence indicating that posterior auditory cortex is involved in the segregation of multiple auditory signals (i.e., the “cocktail party” problem; Alain et al., find protocol 2005, Wilson et al., 2007 and Wong et al., 2008). For patients in our study, successful task performance depended upon their ability to separate the tinnitus sensation from auditory stimulation; this was not the case for control participants, who did not experience tinnitus. In fact, one could argue that the separation of multiple acoustic signals is a constant concern for tinnitus patients, and therefore is relevant even for those studies not involving concurrent auditory tasks or stimuli (Giraud et al., 1999, Lockwood et al., 1998, Plewnia et al., 2007 and Reyes et al., 2002). STK38 Hearing loss and age did not affect any tinnitus-related neural markers we identified in this study. However, both hearing loss and age have been important topics in the field of tinnitus research. The prevalence
of tinnitus increases with age, presumably due to increased incidences of hearing loss (Heller, 2003 and Eggermont and Roberts, 2004). Hearing loss can be interpreted as a correlate of peripheral or central auditory system damage and/or dysfunction, the latter of which is a critical component of all current theories of tinnitus pathophysiology. However, audiometry of even an extended range of frequencies (i.e., > 8 kHz) may not capture all types of auditory system dysfunction (e.g., Weisz et al., 2006). Certainly, controlling for the possible influence of age and audiometrically measurable hearing loss is critical to tinnitus research, as we have attempted to do in our study through careful examination of single subject data and covariate analyses. However, restriction of participant samples along these dimensions is not a preferable solution to this problem.