Joseph Walton
Affiliations: | University of Rochester, Rochester, NY |
Area:
Biomedical Engineering, Neuroscience Biology, AudiologyGoogle:
"Joseph Walton"Mean distance: 53433
Children
Sign in to add trainee| Dimitri L. Brunelle | research assistant | 2018- | University of South Florida |
| Adam C. Dziorny | grad student | 2010 | Rochester |
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| Park CR, Willott JF, Walton JP. (2023) Age-related changes of auditory sensitivity across the life span of CBA/CaJ mice. Hearing Research. 441: 108921 |
| Fawcett TJ, Longenecker RJ, Brunelle DL, et al. (2022) Universal automated classification of the acoustic startle reflex using machine learning. Hearing Research. 428: 108667 |
| Dziorny AC, Luebke AE, Scott LL, et al. (2021) Rescuing auditory temporal processing with a novel augmented acoustic environment in an animal model of congenital hearing loss. Eneuro |
| Fawcett TJ, Cooper CS, Longenecker RJ, et al. (2021) Machine learning, waveform preprocessing and feature extraction methods for classification of acoustic startle waveforms. Methodsx. 8: 101166 |
| Fawcett TJ, Cooper CS, Longenecker RJ, et al. (2020) Automated classification of acoustic startle reflex waveforms inyoung CBA/CaJ mice using machine learning. Journal of Neuroscience Methods. 108853 |
| Wood NJ, Lowe AS, Walton JP. (2019) Sodium salicylate alters temporal integration measured through increasing stimulus presentation rates. International Journal of Audiology. 58: 141-150 |
| Walton JP, Dziorny AC, Vasilyeva ON, et al. (2018) Loss of the Cochlear Amplifier Prestin Reduces Temporal Processing Efficacy in the Central Auditory System. Frontiers in Cellular Neuroscience. 12: 291 |
| Lowe AS, Walton JP. (2015) Alterations in peripheral and central components of the auditory brainstem response: a neural assay of tinnitus. Plos One. 10: e0117228 |
| Karcz A, Allen PD, Walton J, et al. (2015) Auditory deficits of Kcna1 deletion are similar to those of a monaural hearing impairment. Hearing Research. 321: 45-51 |
| Williamson TT, Zhu X, Walton JP, et al. (2014) Auditory brainstem gap responses start to decline in mice in middle age: a novel physiological biomarker for age-related hearing loss. Cell and Tissue Research |