BACKGROUND: Auditory impairments in schizophrenia have been demonstrated previously, especially for tasks requiring precise encoding of frequency, although it is unclear the extent to which they have difficulty using pitch information and other cues to segregate sounds. We determined the extent to which those with schizophrenia have difficulty using pitch information and other auditory cues to segregate sounds that are presented sequentially. METHODS: Ten participants with schizophrenia and nine healthy/normal control participants completed a battery of tasks that tested for the ability to perform sequential auditory stream segregation using pitch, amplitude modulation, or inter-aural phase difference as cues to segregation. RESULTS: All three sequential segregation tasks showed reduced tendency for those with schizophrenia to perceive segregated sounds, compared to control participants. CONCLUSIONS: These findings extend prior research by demonstrating a general impairment on sequential sound segregation tasks in schizophrenia, and not just on tasks that require precise encoding of frequency. Together, the pattern of results provide evidence that auditory impairments in schizophrenia result from selective abnormalities in neural circuits that carry out specific computations necessary for stream segregation, as opposed to an impairment in processing specific cues.
BACKGROUND:Auditory impairments in schizophrenia have been demonstrated previously, especially for tasks requiring precise encoding of frequency, although it is unclear the extent to which they have difficulty using pitch information and other cues to segregate sounds. We determined the extent to which those with schizophrenia have difficulty using pitch information and other auditory cues to segregate sounds that are presented sequentially. METHODS: Ten participants with schizophrenia and nine healthy/normal control participants completed a battery of tasks that tested for the ability to perform sequential auditory stream segregation using pitch, amplitude modulation, or inter-aural phase difference as cues to segregation. RESULTS: All three sequential segregation tasks showed reduced tendency for those with schizophrenia to perceive segregated sounds, compared to control participants. CONCLUSIONS: These findings extend prior research by demonstrating a general impairment on sequential sound segregation tasks in schizophrenia, and not just on tasks that require precise encoding of frequency. Together, the pattern of results provide evidence that auditory impairments in schizophrenia result from selective abnormalities in neural circuits that carry out specific computations necessary for stream segregation, as opposed to an impairment in processing specific cues.
Authors: David I Leitman; Petri Laukka; Patrik N Juslin; Erica Saccente; Pamela Butler; Daniel C Javitt Journal: Schizophr Bull Date: 2008-09-12 Impact factor: 9.306
Authors: Erin M Ramage; David M Weintraub; Sally J Vogel; Griffin P Sutton; Erik N Ringdahl; Daniel N Allen; Joel S Snyder Journal: Schizophr Res Date: 2015-01-10 Impact factor: 4.939
Authors: Sarah M Haigh; Mario De Matteis; Brian A Coffman; Timothy K Murphy; Christiana D Butera; Kayla L Ward; Justin R Leiter-McBeth; Dean F Salisbury Journal: Eur J Neurosci Date: 2017-09-03 Impact factor: 3.386
Authors: Sarah M Haigh; Brian A Coffman; Timothy K Murphy; Christiana D Butera; Dean F Salisbury Journal: Schizophr Res Date: 2016-08-06 Impact factor: 4.939
Authors: Erin M Ramage; Nedka Klimas; Sally J Vogel; Mary Vertinski; Breanne D Yerkes; Amanda Flores; Griffin P Sutton; Erik N Ringdahl; Daniel N Allen; Joel S Snyder Journal: Schizophr Res Date: 2015-11-28 Impact factor: 4.939
Authors: Brian A Coffman; Sarah M Haigh; Timothy K Murphy; Justin Leiter-Mcbeth; Dean F Salisbury Journal: Schizophr Res Date: 2017-10-22 Impact factor: 4.939