Sergei Kurkin
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Explore the profile of Sergei Kurkin including associated specialties, affiliations and a list of published articles.
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30
Citations
506
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Recent Articles
1.
Mochizuki Y, Onaga T, Shimazaki H, Shimokawa T, Tsubo Y, Kimura R, et al.
J Neurosci
. 2016 May;
36(21):5736-47.
PMID: 27225764
Unlabelled: The architectonic subdivisions of the brain are believed to be functional modules, each processing parts of global functions. Previously, we showed that neurons in different regions operate in different...
2.
Kurkin S, Akao T, Fukushima J, Shichinohe N, Kaneko C, Belton T, et al.
Exp Brain Res
. 2013 Oct;
232(1):191-210.
PMID: 24129645
The cerebellar dorsal vermis lobules VI-VII (oculomotor vermis) and its output region (caudal fastigial nuclei, cFN) are involved in tracking eye movements consisting of both smooth-pursuit and saccades, yet, the...
3.
Kurkin S, Akao T, Shichinohe N, Fukushima J, Fukushima K
Exp Brain Res
. 2011 Aug;
214(2):293-301.
PMID: 21837438
We examined recently neuronal substrates for predictive pursuit using a memory-based smooth pursuit task that distinguishes the discharge related to memory of visual motion-direction from that related to movement preparation....
4.
Shichinohe N, Barnes G, Akao T, Kurkin S, Fukushima J, Kase M, et al.
Invest Ophthalmol Vis Sci
. 2011 Feb;
52(6):3458-67.
PMID: 21296810
Purpose: Juvenile monkeys being trained on smooth-pursuit tasks exhibit ocular oscillations resembling pendular nystagmus. The purpose of this study was to analyze these oscillations, the effects of gabapentin on them,...
5.
Fukushima J, Akao T, Shichinohe N, Kurkin S, Kaneko C, Fukushima K
Cereb Cortex
. 2011 Jan;
21(8):1910-24.
PMID: 21209120
Recently, we examined the neuronal substrate of predictive pursuit during memory-based smooth pursuit and found that supplementary eye fields (SEFs) contain signals coding assessment and memory of visual motion direction,...
6.
Fujiwara K, Akao T, Kurkin S, Fukushima K
Cereb Cortex
. 2010 Apr;
21(1):155-65.
PMID: 20421248
Recent studies have shown that rhesus macaques can perceive visual motion direction in earth-centered coordinates as accurately as humans. We tested whether coordinate frames representing smooth pursuit and/or visual motion...
7.
Fukushima K, Kasahara S, Akao T, Saito H, Kurkin S, Fukushima J, et al.
Ann N Y Acad Sci
. 2009 Aug;
1164:194-200.
PMID: 19645899
The smooth-pursuit system is important to precisely track a slowly moving object and maintain its image on the foveae during movement. During whole-body rotation, the smooth-pursuit system interacts with the...
8.
Shinomoto S, Kim H, Shimokawa T, Matsuno N, Funahashi S, Shima K, et al.
PLoS Comput Biol
. 2009 Jul;
5(7):e1000433.
PMID: 19593378
It has been empirically established that the cerebral cortical areas defined by Brodmann one hundred years ago solely on the basis of cellular organization are closely correlated to their function,...
9.
Shichinohe N, Akao T, Kurkin S, Fukushima J, Kaneko C, Fukushima K
Neuron
. 2009 Jun;
62(5):717-32.
PMID: 19524530
Cortical motor areas are thought to contribute "higher-order processing," but what that processing might include is unknown. Previous studies of the smooth pursuit-related discharge of supplementary eye field (SEF) neurons...
10.
Fujiwara K, Akao T, Kurkin S, Fukushima K
Exp Brain Res
. 2009 Apr;
195(2):229-40.
PMID: 19337727
Previous studies in monkeys have shown that pursuit training during orthogonal whole body rotation results in task-dependent, predictive pursuit eye movements. We examined whether pursuit neurons in the frontal eye...