Bibliography- Saccades Flashcards
Armstrong, I. T., & Munoz, D. P. (2003). Inhibitory control of eye movements during oculomotor countermanding in adults with ADHD. Neuropsychologia, 41(14), 1865-1876.
Summary: Adults with ADHD show deficits in inhibitory control during oculomotor countermanding tasks.
DOI: 10.1016/S0028-3932(03)00143-3
Dafoe, J. M., Armstrong, I. T., & Munoz, D. P. (2007). Antisaccades are less accurate and have more variable endpoints compared to prosaccades. Experimental Brain Research, 182(4), 525–534.
Summary: Antisaccades are less accurate and have more variable endpoints compared to prosaccades.
DOI: 10.1007/s00221-006-0817-8
Dyckman, K. A., & McDowell, J. E. (2005). Behavioral plasticity of antisaccade performance following daily practice. Experimental Brain Research, 162(1), 63-69.
Summary: Daily practice improves antisaccade performance by reducing reaction times and increasing accuracy.
DOI: 10.1007/s00221-004-2105-9
Edelman, J. A., Valenzuela, N., & Barton, J. J. S. (2006). Antisaccade velocity, but not latency, results from a lack of saccade visual guidance. Vision Research, 46(8-9), 1411-1421.
Summary: Lack of visual guidance reduces antisaccade velocity but does not affect latency.
DOI: 10.1016/j.visres.2005.09.013
Everling, S., & Johnston, K. (2013). The lateral prefrontal cortex crucially controls the superior colliculus during antisaccades. Philosophical Transactions of the Royal Society B: Biological Sciences, 368(1628), 20130068.
Summary: The lateral prefrontal cortex crucially controls the superior colliculus during antisaccades.
DOI: 10.1098/rstb.2013.0068
Fischer, B., & Weber, H. (1992). Characteristics of “anti” saccades in man. Experimental Brain Research, 89(2), 415-424.
Summary: Antisaccades require additional processing time and are prone to more errors compared to prosaccades.
DOI: 10.1007/BF00228257
Fitts, P. M. (1954). The information capacity of the human motor system in controlling the amplitude of movement. Journal of Experimental Psychology, 47(6), 381-391.
Summary: There is a trade-off between speed and accuracy in human motor performance.
DOI: 10.1037/h0055392
Gillen, C., & Heath, M. (2014). Perceptual averaging governs antisaccade endpoint bias. Experimental Brain Research, 232(1), 37-49.
Summary: Perceptual averaging governs antisaccade endpoint bias, leading to reduced accuracy and increased variability.
DOI: 10.1007/s00221-014-4010-1
Hallett, P. E. (1978). Primary and secondary saccades to goals defined by instructions. Vision Research, 18(10), 1279-1296.
Summary: Saccades to goals defined by instructions have longer reaction times compared to those made to visible targets.
DOI: 10.1016/0042-6989(78)90218-3
Johnson, B., Zhang, K., Hallett, M., & Slobounov, S. (2015). Antisaccades reveal concussive deficits with altered brain activity patterns in concussed athletes both early and later stages of recovery. Brain Imaging and Behavior, 9(3), 597-612.
Summary: Antisaccades reveal concussive deficits with altered brain activity patterns in concussed athletes both early and later stages of recovery.
DOI: 10.1007/s11682-014-9316-x
Munoz, D. P., & Everling, S. (2004). Look away: The anti-saccade task and the voluntary control of eye movement. Nature Reviews Neuroscience, 5(3), 218-228.
Summary: The antisaccade task is a crucial tool for understanding the neural mechanisms of voluntary eye movement control.
DOI: 10.1038/nrn1345
Kaufman, L. D., Pratt, J., Levine, B., & Black, S. E. (2012). The antisaccade task effectively detects executive deficits in individuals with mild Alzheimer’s disease. Brain and Behavior, 2(1), 15-21.
Summary: The antisaccade task effectively detects executive deficits in individuals with mild Alzheimer’s disease.
DOI: 10.1002/brb3.28
Peltsch, A., Hemraj, A., Garcia, A., & Munoz, D. P. (2014). Saccade deficits in amnestic mild cognitive impairment resemble mild Alzheimer’s disease. European Journal of Neuroscience, 39(11), 2000-2013.
Summary: Saccade deficits in individuals with aMCI resemble those in mild Alzheimer’s disease, indicating that antisaccade tasks are sensitive to early cognitive impairments.
DOI: 10.1111/ejn.12617
