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Bryant D, Pauzuolyte V, Ingham NJ, et al. (2022) The timing of auditory sensory deficits in Norrie disease has implications for therapeutic intervention. Jci Insight. 7 |
Forge A, Jagger DJ, Gale JE. (2020) Restoring the balance: regeneration of hair cells in the vestibular system of the inner ear Current Opinion in Physiology. 14: 35-40 |
Bullen A, Forge A, Wright A, et al. (2019) Ultrastructural defects in stereocilia and tectorial membrane in aging mouse and human cochleae. Journal of Neuroscience Research |
Bullen A, Anderson L, Bakay W, et al. (2019) Localized disorganization of the cochlear inner hair cell synaptic region after noise exposure. Biology Open. 8 |
Taylor RR, Filia A, Paredes U, et al. (2018) Regenerating hair cells in human vestibular sensory epithelia. Elife. 7 |
Beer-Hammer S, Lee SC, Mauriac SA, et al. (2018) Gαi Proteins are Indispensable for Hearing. Cellular Physiology and Biochemistry : International Journal of Experimental Cellular Physiology, Biochemistry, and Pharmacology. 47: 1509-1532 |
Taylor RR, Filia A, Paredes U, et al. (2018) Author response: Regenerating hair cells in vestibular sensory epithelia from humans Elife |
Mauriac SA, Hien YE, Bird JE, et al. (2017) Defective Gpsm2/Gαi3 signalling disrupts stereocilia development and growth cone actin dynamics in Chudley-McCullough syndrome. Nature Communications. 8: 14907 |
Forge A, Taylor RR, Dawson SJ, et al. (2017) Disruption of SorCS2 reveals differences in the regulation of stereociliary bundle formation between hair cell types in the inner ear. Plos Genetics. 13: e1006692 |
Landegger LD, Pan B, Askew C, et al. (2017) A synthetic AAV vector enables safe and efficient gene transfer to the mammalian inner ear. Nature Biotechnology |