The effect of dorsal cochlear nucleus ablation on tinnitus in rats

A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output of the DCN is necessary for the experience of chronic tinnitus, the dorsal DCN and the dorsal acoustic stria of rats with psychophysical evide...

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Published in	Hearing research Vol. 206; no. 1; pp. 227 - 236
Main Authors	Brozoski, Thomas J., Bauer, Carol A.
Format	Journal Article Conference Proceeding
Language	English
Published	Amsterdam Elsevier B.V 01.08.2005 Elsevier
Subjects	Ablation Acoustic Stimulation Animal model Animals Biological and medical sciences Cochlear Nerve - physiopathology Cochlear Nucleus - pathology Cochlear Nucleus - physiology Conditioning, Operant Dorsal cochlear nucleus Drug toxicity and drugs side effects treatment Ear, auditive nerve, cochleovestibular tract, facial nerve: diseases, semeiology Male Medical sciences Noise - adverse effects Non tumoral diseases Otorhinolaryngology. Stomatology Pharmacology. Drug treatments Rats Rats, Long-Evans Regression Analysis Tinnitus Tinnitus - etiology Tinnitus - physiopathology Toxicity: respiratory system, ent, stomatology Animal model Dorsal cochlear nucleus Tinnitus Ablation Rat Rodentia Auditory disorder Ipsilateral Acoustic trauma Vertebrata Chronic Mammalia ENT disease
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ISSN	0378-5955 1878-5891
DOI	10.1016/j.heares.2004.12.013

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Abstract	A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output of the DCN is necessary for the experience of chronic tinnitus, the dorsal DCN and the dorsal acoustic stria of rats with psychophysical evidence of tinnitus was ablated. If the DCN plays a necessary role in the generation of chronic tinnitus, ablating the DCN should decrease the evidence of tinnitus in subjects previously shown to have tinnitus. Contrary to prediction, bilateral dorsal DCN ablation did not significantly ( n = 11, p = 0.707) affect the psychophysical evidence of tinnitus, and ipsilateral dorsal DCN ablation appeared to increase the evidence of tinnitus ( n = 9, p = 0.018) compared to pre-ablation performance. It was concluded that the DCN does not act as a simple feed-forward source of chronic tinnitus. Alternative hypotheses were considered, among them that elevated DCN activity following acoustic trauma triggers persistent pathological changes distributed across more than one level of the auditory system. In addition to serving as a trigger, the DCN may also modify the experience of tinnitus, since the evidence of tinnitus was enhanced by ipsilateral DCN ablation.
AbstractList	A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output of the DCN is necessary for the experience of chronic tinnitus, the dorsal DCN and the dorsal acoustic stria of rats with psychophysical evidence of tinnitus was ablated. If the DCN plays a necessary role in the generation of chronic tinnitus, ablating the DCN should decrease the evidence of tinnitus in subjects previously shown to have tinnitus. Contrary to prediction, bilateral dorsal DCN ablation did not significantly (n=11, p=0.707) affect the psychophysical evidence of tinnitus, and ipsilateral dorsal DCN ablation appeared to increase the evidence of tinnitus (n=9, p=0.018) compared to pre-ablation performance. It was concluded that the DCN does not act as a simple feed-forward source of chronic tinnitus. Alternative hypotheses were considered, among them that elevated DCN activity following acoustic trauma triggers persistent pathological changes distributed across more than one level of the auditory system. In addition to serving as a trigger, the DCN may also modify the experience of tinnitus, since the evidence of tinnitus was enhanced by ipsilateral DCN ablation. A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output of the DCN is necessary for the experience of chronic tinnitus, the dorsal DCN and the dorsal acoustic stria of rats with psychophysical evidence of tinnitus was ablated. If the DCN plays a necessary role in the generation of chronic tinnitus, ablating the DCN should decrease the evidence of tinnitus in subjects previously shown to have tinnitus. Contrary to prediction, bilateral dorsal DCN ablation did not significantly ( n = 11, p = 0.707) affect the psychophysical evidence of tinnitus, and ipsilateral dorsal DCN ablation appeared to increase the evidence of tinnitus ( n = 9, p = 0.018) compared to pre-ablation performance. It was concluded that the DCN does not act as a simple feed-forward source of chronic tinnitus. Alternative hypotheses were considered, among them that elevated DCN activity following acoustic trauma triggers persistent pathological changes distributed across more than one level of the auditory system. In addition to serving as a trigger, the DCN may also modify the experience of tinnitus, since the evidence of tinnitus was enhanced by ipsilateral DCN ablation. A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output of the DCN is necessary for the experience of chronic tinnitus, the dorsal DCN and the dorsal acoustic stria of rats with psychophysical evidence of tinnitus was ablated. If the DCN plays a necessary role in the generation of chronic tinnitus, ablating the DCN should decrease the evidence of tinnitus in subjects previously shown to have tinnitus. Contrary to prediction, bilateral dorsal DCN ablation did not significantly (n=11, p=0.707) affect the psychophysical evidence of tinnitus, and ipsilateral dorsal DCN ablation appeared to increase the evidence of tinnitus (n=9, p=0.018) compared to pre-ablation performance. It was concluded that the DCN does not act as a simple feed-forward source of chronic tinnitus. Alternative hypotheses were considered, among them that elevated DCN activity following acoustic trauma triggers persistent pathological changes distributed across more than one level of the auditory system. In addition to serving as a trigger, the DCN may also modify the experience of tinnitus, since the evidence of tinnitus was enhanced by ipsilateral DCN ablation.A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output of the DCN is necessary for the experience of chronic tinnitus, the dorsal DCN and the dorsal acoustic stria of rats with psychophysical evidence of tinnitus was ablated. If the DCN plays a necessary role in the generation of chronic tinnitus, ablating the DCN should decrease the evidence of tinnitus in subjects previously shown to have tinnitus. Contrary to prediction, bilateral dorsal DCN ablation did not significantly (n=11, p=0.707) affect the psychophysical evidence of tinnitus, and ipsilateral dorsal DCN ablation appeared to increase the evidence of tinnitus (n=9, p=0.018) compared to pre-ablation performance. It was concluded that the DCN does not act as a simple feed-forward source of chronic tinnitus. Alternative hypotheses were considered, among them that elevated DCN activity following acoustic trauma triggers persistent pathological changes distributed across more than one level of the auditory system. In addition to serving as a trigger, the DCN may also modify the experience of tinnitus, since the evidence of tinnitus was enhanced by ipsilateral DCN ablation.
Author	Brozoski, Thomas J. Bauer, Carol A.
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Keywords	Animal model Dorsal cochlear nucleus Tinnitus Ablation Rat Rodentia Auditory disorder Ipsilateral Acoustic trauma Vertebrata Chronic Mammalia ENT disease
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Snippet	A growing body of evidence implies that the dorsal cochlear nucleus (DCN) plays an important role in tinnitus. To test the hypothesis that the rostral output...
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SubjectTerms	Ablation Acoustic Stimulation Animal model Animals Biological and medical sciences Cochlear Nerve - physiopathology Cochlear Nucleus - pathology Cochlear Nucleus - physiology Conditioning, Operant Dorsal cochlear nucleus Drug toxicity and drugs side effects treatment Ear, auditive nerve, cochleovestibular tract, facial nerve: diseases, semeiology Male Medical sciences Noise - adverse effects Non tumoral diseases Otorhinolaryngology. Stomatology Pharmacology. Drug treatments Rats Rats, Long-Evans Regression Analysis Tinnitus Tinnitus - etiology Tinnitus - physiopathology Toxicity: respiratory system, ent, stomatology
Title	The effect of dorsal cochlear nucleus ablation on tinnitus in rats
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