Donald E. Mitchell
Affiliations: | Dalhousie University, Halifax, Nova Scotia, Canada |
Area:
Visual SystemGoogle:
"Donald Mitchell"Mean distance: 14.66 (cluster 29)
Children
Sign in to add traineeSeo Ho Song | research assistant | 2009-2012 | Dalhousie University |
Francis E. Wilkinson | grad student | York University | |
Kathryn M. Murphy | grad student | 1982-1987 | Dalhousie University |
Guy Gingras | grad student | 2004 | Dalhousie University |
Vaclav Ourednik | post-doc | 1994-1995 | Dalhousie University |
Robert P. O'Shea | research scientist | 1987-1987 | Dalhousie University |
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Publications
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Mitchell DE, Maurer D. (2022) Critical Periods in Vision Revisited. Annual Review of Vision Science |
MacNeill K, Myatt A, Duffy KR, et al. (2021) Documentation of the Development of Various Visuomotor Responses in Typically Reared Kittens and Those Reared With Early Selected Visual Exposure by Use of a New Procedure. Frontiers in Neuroscience. 15: 781516 |
Lingley AJ, Mitchell DE, Crowder NA, et al. (2019) Modification of Peak Plasticity Induced by Brief Dark Exposure. Neural Plasticity. 2019: 3198285 |
Mitchell DE, Crowder NA, Duffy KR. (2019) The critical period for darkness-induced recovery of the vision of the amblyopic eye following early monocular deprivation. Journal of Vision. 19: 25 |
Mitchell DE, Aronitz E, Bobbie-Ansah P, et al. (2019) Fast Recovery of the Amblyopic Eye Acuity of Kittens following Brief Exposure to Total Darkness Depends on the Fellow Eye. Neural Plasticity. 2019: 7624837 |
Mitchell D, Sengpiel F. (2018) Animal models of amblyopia. Visual Neuroscience. 35: E017 |
Holman KD, Duffy KR, Mitchell DE. (2018) Short periods of darkness fail to restore visual or neural plasticity in adult cats. Visual Neuroscience. 35: E002 |
Duffy KR, Fong MF, Mitchell DE, et al. (2017) Recovery from the anatomical effects of long-term monocular deprivation in cat lateral geniculate nucleus. The Journal of Comparative Neurology |
Fong MF, Mitchell DE, Duffy KR, et al. (2016) Rapid recovery from the effects of early monocular deprivation is enabled by temporary inactivation of the retinas. Proceedings of the National Academy of Sciences of the United States of America |
Duffy KR, Lingley AJ, Holman KD, et al. (2016) Susceptibility to monocular deprivation following immersion in darkness either late into or beyond the critical period. The Journal of Comparative Neurology |