Daniel J. Brown

Affiliations: 
University of Sydney, Camperdown, New South Wales, Australia 
Area:
Auditory physiology, Ménière's disease
Website:
http://www.medfac.usyd.edu.au/people/academics/profiles/danielbrown.php
Google:
"Daniel Brown"
Mean distance: 20.67 (cluster 29)
 
Cross-listing: CSD Tree

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Publications

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Brown DJ, Pastras C, Curthoys IS, et al. (2016) Endolymph Movement Visualized with Light Sheet Fluorescence Microscopy in an Acute Hydrops Model. Hearing Research
March D, Brown D, Gray R, et al. (2015) Auditory anatomy of beaked whales and other odontocetes: Potential for cochlear stimulation via a "vibroacoustic duct mechanism" Marine Mammal Science
Buljan VA, Holsinger RM, Brown D, et al. (2013) Spinodal decomposition and the emergence of dissipative transient periodic spatio-temporal patterns in acentrosomal microtubule multitudes of different morphology. Chaos (Woodbury, N.Y.). 23: 023120
Brown DJ, Chihara Y, Wang Y. (2013) Changes in utricular function during artificial endolymph injections in guinea pigs. Hearing Research. 304: 70-6
Chihara Y, Wang V, Brown DJ. (2013) Evidence for the utricular origin of the vestibular short-latency-evoked potential (VsEP) to bone-conducted vibration in guinea pig. Experimental Brain Research. 229: 157-70
Chihara Y, Wong C, Curthoys IS, et al. (2013) The effect of systemic administration of desmopressin on cochlear function in guinea pigs. Acta Oto-Laryngologica. 133: 676-84
Brown DJ, Chihara Y, Curthoys IS, et al. (2013) Changes in cochlear function during acute endolymphatic hydrops development in guinea pigs. Hearing Research. 296: 96-106
Brown DJ, Gibson WP. (2011) On the differential diagnosis of Ménière's disease using low-frequency acoustic biasing of the 2f1-f2 DPOAE. Hearing Research. 282: 119-27
Brown DJ, Patuzzi RB. (2010) Evidence that the compound action potential (CAP) from the auditory nerve is a stationary potential generated across dura mater. Hearing Research. 267: 12-26
Brown DJ, Hartsock JJ, Gill RM, et al. (2009) Estimating the operating point of the cochlear transducer using low-frequency biased distortion products. The Journal of the Acoustical Society of America. 125: 2129-45
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