J
Jennifer L. Parrish
Researcher at Southern Illinois University School of Medicine
Publications - 7
Citations - 972
Jennifer L. Parrish is an academic researcher from Southern Illinois University School of Medicine. The author has contributed to research in topics: Tinnitus & Cochlear nucleus. The author has an hindex of 7, co-authored 7 publications receiving 890 citations.
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Journal ArticleDOI
Gap detection deficits in rats with tinnitus: A potential novel screening tool.
Jeremy G. Turner,Thomas J. Brozoski,Carol A. Bauer,Jennifer L. Parrish,Kristin S. Myers,Larry F. Hughes,Donald M. Caspary +6 more
TL;DR: It is suggested that gap detection reflex procedures might be effective for rapid tinnitus screening in rats when the gap was embedded in a background similar to their tinnitis.
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Plasticity at glycinergic synapses in dorsal cochlear nucleus of rats with behavioral evidence of tinnitus
Hongning Wang,Thomas J. Brozoski,Jeremy G. Turner,Jeremy G. Turner,Lynne Ling,Jennifer L. Parrish,Larry F. Hughes,Donald M. Caspary +7 more
TL;DR: The development of tinnitus is likely associated with functional GlyR changes in DCN fusiform cells consistent with previously described behavioral and neurophysiologic changes.
Journal Article
Hearing in laboratory animals: strain differences and nonauditory effects of noise.
TL;DR: Some of the basic strain and species differences in hearing are reviewed and how the acoustic environment affects different mammals is outlined.
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Gap detection methods for assessing salicylate-induced tinnitus and hyperacusis in rats.
TL;DR: Gap detection procedures efficiently measured salicylate-induced changes in behavior that were consistent with the presence of tinnitus, suggesting the possibility of measuring a hyperacusis-like phenomenon using these methods.
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Processing of broadband stimuli across A1 layers in young and aged rats.
TL;DR: Functional differences across layers were consistent with studies showing greatest losses of gamma-aminobutyric acid (GABA) markers in superficial layers of A1 and with anatomic studies showing highest levels of inhibitory neurons located in superficial cortical layers.