Right-ear advantage drives the link between olivocochlear efferent 'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - Neuroreport, 2015 - journals.lww.com
The mammalian cochlea receives feedback from the brainstem medial olivocochlear (MOC)
efferents, whose putative 'antimasking'function is to adjust cochlear amplification and …
efferents, whose putative 'antimasking'function is to adjust cochlear amplification and …
Right-ear advantage drives the link between olivocochlear efferent 'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - NeuroReport, 2015 - ingentaconnect.com
The mammalian cochlea receives feedback from the brainstem medial olivocochlear (MOC)
efferents, whose putative 'antimasking'function is to adjust cochlear amplification and …
efferents, whose putative 'antimasking'function is to adjust cochlear amplification and …
[PDF][PDF] Right-ear advantage drives the link between olivocochlear efferent 'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - NeuroReport, 2015 - acnl.sitehost.iu.edu
Physiological responses from the human cochlea similarly exhibit functional asymmetries,
with larger transientevoked otoacoustic emissions (OAEs) measured in the right ear …
with larger transientevoked otoacoustic emissions (OAEs) measured in the right ear …
[PDF][PDF] Right-ear advantage drives the link between olivocochlear efferent 'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - NeuroReport, 2015 - scholar.archive.org
Physiological responses from the human cochlea similarly exhibit functional asymmetries,
with larger transientevoked otoacoustic emissions (OAEs) measured in the right ear …
with larger transientevoked otoacoustic emissions (OAEs) measured in the right ear …
Right-ear advantage drives the link between olivocochlear efferent'antimasking'and speech-in-noise listening benefits.
GM Bidelman, SP Bhagat - NeuroReport: For Rapid …, 2015 - psycnet.apa.org
The mammalian cochlea receives feedback from the brainstem medial olivocochlear (MOC)
efferents, whose putative 'antimasking'function is to adjust cochlear amplification and …
efferents, whose putative 'antimasking'function is to adjust cochlear amplification and …
Right-ear advantage drives the link between olivocochlear efferent'antimasking'and speech-in-noise listening benefits.
GM Bidelman, SP Bhagat - Neuroreport, 2015 - europepmc.org
The mammalian cochlea receives feedback from the brainstem medial olivocochlear (MOC)
efferents, whose putative'antimasking'function is to adjust cochlear amplification and …
efferents, whose putative'antimasking'function is to adjust cochlear amplification and …
Right-ear advantage drives the link between olivocochlear efferent'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - NeuroReport, 2015 - digitalcommons.memphis.edu
The mammalian cochlea receives feedback from the brainstem medial olivocochlear (MOC)
efferents, whose putative'antimasking'function is to adjust cochlear amplification and …
efferents, whose putative'antimasking'function is to adjust cochlear amplification and …
[PDF][PDF] Right-ear advantage drives the link between olivocochlear efferent 'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - NeuroReport, 2015 - bidelman.lab.indiana.edu
Physiological responses from the human cochlea similarly exhibit functional asymmetries,
with larger transientevoked otoacoustic emissions (OAEs) measured in the right ear …
with larger transientevoked otoacoustic emissions (OAEs) measured in the right ear …
Right-ear advantage drives the link between olivocochlear efferent'antimasking'and speech-in-noise listening benefits
GM Bidelman, SP Bhagat - Neuroreport, 2015 - pubmed.ncbi.nlm.nih.gov
The mammalian cochlea receives feedback from the brainstem medial olivocochlear (MOC)
efferents, whose putative'antimasking'function is to adjust cochlear amplification and …
efferents, whose putative'antimasking'function is to adjust cochlear amplification and …