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Reverse Correlation Uncovers More Complete Tinnitus Spectra.

Alec HoylandNelson V BarnettBenjamin W RoopDanae AlexandrouMyah CaplanJacob MillsBenjamin ParrellDivya A ChariAdam C Lammert
Published in: IEEE open journal of engineering in medicine and biology (2023)
Goal: This study validates an approach to characterizing the sounds experienced by tinnitus patients via reverse correlation, with potential for characterizing a wider range of sounds than currently possible. Methods: Ten normal-hearing subjects assessed the subjective similarity of random auditory stimuli and target tinnitus-like sounds ("buzzing" and "roaring"). Reconstructions of the targets were obtained by regressing subject responses on the stimuli, and were compared for accuracy to the frequency spectra of the targets using Pearson's [Formula: see text]. Results: Reconstruction accuracy was significantly higher than chance across subjects: buzzing: [Formula: see text] (mean [Formula: see text] s.d.), [Formula: see text], [Formula: see text]; roaring: [Formula: see text], [Formula: see text], [Formula: see text]; combined: [Formula: see text], [Formula: see text], [Formula: see text]. Conclusion: Reverse correlation can accurately reconstruct non-tonal tinnitus-like sounds in normal-hearing subjects, indicating its potential for characterizing the sounds experienced by patients with non-tonal tinnitus.
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