Adaptation of saccadic eye movements is necessary so that saccade accuracy can be maintained throughout life despite the changes caused by development, aging and trauma. The long-term objective of this grant is to study the possible role of the oculomotor vermis (OMV) of the cerebellum in the adaptation process. We will approach this objective with 3 sets of experiments. In the first, we will inactivate the OMV pharmacologically and determine the deficit in the behavioral adaptation of saccades to an intra-saccadic target step, which causes saccades to appear inaccurate. In the second, we will examine the behavior of simple spike activity in the Purkinje cells of the oculomotor vermis to determine how it changes during this behavioral adaptation. Finally, we will activate the putative error signal pathway that drives adaptation by stimulating the superior colliculus, which is the likely source of the error-related climbing fiber activity to the OMV. Because of the similarities of simian and human saccadic eye movement behavior, the results of this project should have considerable relevance in the diagnosis, treatment and rehabilitation of patients with saccadic eye movement disorders.
This proposal studies the brain mechanisms of saccadic eye movement adaptation. The results of this project are relevance in the diagnostics, treatment and rehabilitation of patients with saccadic eye movement disorders.
Kojima, Yoshiko; Soetedjo, Robijanto (2018) Elimination of the error signal in the superior colliculus impairs saccade motor learning. Proc Natl Acad Sci U S A 115:E8987-E8995 |
Soetedjo, Robijanto (2018) Signals driving the adaptation of saccades that require spatial updating. J Neurophysiol 120:525-538 |
Herzfeld, David J; Kojima, Yoshiko; Soetedjo, Robijanto et al. (2018) Encoding of error and learning to correct that error by the Purkinje cells of the cerebellum. Nat Neurosci 21:736-743 |
Kojima, Yoshiko; Soetedjo, Robijanto (2017) Change in sensitivity to visual error in superior colliculus during saccade adaptation. Sci Rep 7:9566 |
El-Shamayleh, Yasmine; Kojima, Yoshiko; Soetedjo, Robijanto et al. (2017) Selective Optogenetic Control of Purkinje Cells in Monkey Cerebellum. Neuron 95:51-62.e4 |
Kojima, Yoshiko; Soetedjo, Robijanto (2017) Selective reward affects the rate of saccade adaptation. Neuroscience 355:113-125 |
Galvan, Adriana; Stauffer, William R; Acker, Leah et al. (2017) Nonhuman Primate Optogenetics: Recent Advances and Future Directions. J Neurosci 37:10894-10903 |
Herzfeld, David J; Kojima, Yoshiko; Soetedjo, Robijanto et al. (2015) Encoding of action by the Purkinje cells of the cerebellum. Nature 526:439-42 |
Kojima, Yoshiko; Fuchs, Albert F; Soetedjo, Robijanto (2015) Adaptation and adaptation transfer characteristics of five different saccade types in the monkey. J Neurophysiol 114:125-37 |
Kojima, Yoshiko; Robinson, Farrel R; Soetedjo, Robijanto (2014) Cerebellar fastigial nucleus influence on ipsilateral abducens activity during saccades. J Neurophysiol 111:1553-63 |
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