Your search keyword '"Nannapaneni, Nishant"' showing total 3 results

1. Poster 108 Functional Outcomes of Inpatient Rehabilitation Following Bilateral Total Knee Arthroplasty

Author

Nannapaneni, Nishant

Published

2016

2. Cochlear Damage Changes the Distribution of Vesicular Glutamate Transporters Associated with Auditory and Nonauditory Inputs to the Cochlear Nucleus.

Author

Chunhua Zeng, Nannapaneni, Nishant, Jianxun Zhou, Hughes, Larry F., and Shore, Susan

Subjects

*AUDITORY pathways, *SENSORY neurons, *NEURONS, *COCHLEAR nucleus, *GLUTAMIC acid, *TINNITUS, *HEARING disorders, *DEAFNESS

Abstract

Integration of multimodal information is essential for understanding complex environments. In the auditory system, multisensory integration first occurs in the cochlear nucleus (CN), where auditory nerve and somatosensory pathways converge (Shore, 2005). A unique feature of multisensory neurons is their propensity to receive cross-modal compensation after deafening. Based on our findings that the vesicular glutamate transporters, VGLUT1 and VGLUT2, are differentially associated with auditory nerve and somatosensory inputs to the CN, respectively (Zhou et al., 2007), we examined their relative distributions after unilateral deafening. After unilateral intracochlear injections of kanamycin (1 and 2 weeks), VGLUT1 immunoreactivity (ir) in the magnocellular CN ipsilateral to the cochlear damage was significantly decreased, whereas VGLUT2-ir in regions that receive nonauditory input was significantly increased 2 weeks after deafening. The pathway-specific amplification of VGLUT2 expression in the CN suggests that, in compensatory response to deafening, the nonauditory influence on CN is significantly enhanced. One undesirable consequence of enhanced glutamatergic inputs could be the increased spontaneous rates in CN neurons that occur after hearing loss and that have been proposed as correlates of the phantom auditory sensations commonly called tinnitus. [ABSTRACT FROM AUTHOR]

Published

2009

3. Cochlear damage changes the distribution of vesicular glutamate transporters associated with auditory and nonauditory inputs to the cochlear nucleus.

Author

Zeng C, Nannapaneni N, Zhou J, Hughes LF, and Shore S

Subjects

Acoustic Stimulation methods, Analysis of Variance, Animals, Auditory Pathways drug effects, Auditory Pathways metabolism, Auditory Pathways physiopathology, Cell Death drug effects, Cell Death physiology, Cochlear Nucleus pathology, Deafness chemically induced, Deafness metabolism, Evoked Potentials, Auditory, Brain Stem drug effects, Evoked Potentials, Auditory, Brain Stem physiology, Functional Laterality drug effects, Gene Expression Regulation drug effects, Guinea Pigs, Hair Cells, Auditory physiology, Kanamycin, Psychoacoustics, Time Factors, Vesicular Glutamate Transport Protein 1 metabolism, Vesicular Glutamate Transport Protein 2 metabolism, Cochlear Nucleus metabolism, Deafness pathology, Deafness physiopathology, Functional Laterality physiology, Gene Expression Regulation physiology, Vesicular Transport Proteins metabolism

Abstract

Integration of multimodal information is essential for understanding complex environments. In the auditory system, multisensory integration first occurs in the cochlear nucleus (CN), where auditory nerve and somatosensory pathways converge (Shore, 2005). A unique feature of multisensory neurons is their propensity to receive cross-modal compensation after deafening. Based on our findings that the vesicular glutamate transporters, VGLUT1 and VGLUT2, are differentially associated with auditory nerve and somatosensory inputs to the CN, respectively (Zhou et al., 2007), we examined their relative distributions after unilateral deafening. After unilateral intracochlear injections of kanamycin (1 and 2 weeks), VGLUT1 immunoreactivity (ir) in the magnocellular CN ipsilateral to the cochlear damage was significantly decreased, whereas VGLUT2-ir in regions that receive nonauditory input was significantly increased 2 weeks after deafening. The pathway-specific amplification of VGLUT2 expression in the CN suggests that, in compensatory response to deafening, the nonauditory influence on CN is significantly enhanced. One undesirable consequence of enhanced glutamatergic inputs could be the increased spontaneous rates in CN neurons that occur after hearing loss and that have been proposed as correlates of the phantom auditory sensations commonly called tinnitus.

Published

2009