More (corrective) consecutive saccades after a lesion to the posterior parietal cortex.
暂无分享,去创建一个
[1] Nicholas A. Roy,et al. Mice alternate between discrete strategies during perceptual decision-making , 2020, bioRxiv.
[2] S. van der Stigchel,et al. Intra-saccadic displacement sensitivity after a lesion to the posterior parietal cortex , 2020, Cortex.
[3] Nick A. Weaver,et al. Trans-saccadic memory after right parietal brain damage , 2019, Cortex.
[4] Joshua A. Solomon,et al. Gain control of saccadic eye movements is probabilistic , 2019, Proceedings of the National Academy of Sciences.
[5] J. Whitlock. Posterior parietal cortex , 2017, Current Biology.
[6] R. Kliegl,et al. Revealing the time course of signals influencing the generation of secondary saccades using Aalen’s additive hazards model , 2016, Vision Research.
[7] D. Guitton,et al. Refuting the hypothesis that a unilateral human parietal lesion abolishes saccade corollary discharge. , 2015, Brain : a journal of neurology.
[8] D. Bates,et al. Fitting Linear Mixed-Effects Models Using lme4 , 2014, 1406.5823.
[9] D. Zee,et al. Revisiting corrective saccades: Role of visual feedback , 2013, Vision Research.
[10] René M. Müri,et al. The parietal cortex and saccade planning: lessons from human lesion studies , 2013, Front. Hum. Neurosci..
[11] R. Kliegl,et al. Secondary (micro-)saccades: The influence of primary saccade end point and target eccentricity on the process of postsaccadic fixation , 2011, Vision Research.
[12] Olaf Sporns,et al. Modeling the Impact of Lesions in the Human Brain , 2009, PLoS Comput. Biol..
[13] T. Jaeger,et al. Categorical Data Analysis: Away from ANOVAs (transformation or not) and towards Logit Mixed Models. , 2008, Journal of memory and language.
[14] Denis G. Pelli,et al. ECVP '07 Abstracts , 2007, Perception.
[15] Elizabeth L Irving,et al. Horizontal saccade dynamics across the human life span. , 2006, Investigative ophthalmology & visual science.
[16] J. Lynch,et al. The parieto‐collicular pathway: anatomical location and contribution to saccade generation , 2003, The European journal of neuroscience.
[17] S Lebedev,et al. Square-root relations between main saccadic parameters. , 1996, Investigative ophthalmology & visual science.
[18] W. Heide,et al. Cortical control of double‐step saccades: Implications for spatial orientation , 1995, Annals of neurology.
[19] M. Goldberg,et al. Saccadic dysmetria in a patient with a right frontoparietal lesion. The importance of corollary discharge for accurate spatial behaviour. , 1992, Brain : a journal of neurology.
[20] D. Sparks,et al. Corollary discharge provides accurate eye position information to the oculomotor system. , 1983, Science.
[21] D. Henson. Corrective saccades: Effects of altering visual feedback , 1978, Vision Research.
[22] M. Cohen,et al. Latency and accuracy characteristics of saccades and corrective saccades in children and adults. , 1978, Journal of experimental child psychology.
[23] A. Fuchs,et al. Further properties of the human saccadic system: eye movements and correction saccades with and without visual fixation points. , 1969, Vision research.
[24] R. Rafal,et al. Control of fixation and saccades in humans with chronic lesions of oculomotor cortex. , 2004, Neuropsychology.
[25] M. Goldberg,et al. Space and attention in parietal cortex. , 1999, Annual review of neuroscience.