Stephen I Ryu
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Explore the profile of Stephen I Ryu including associated specialties, affiliations and a list of published articles.
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95
Citations
5797
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Recent Articles
21.
Williams A, Kim T, Wang F, Vyas S, Ryu S, Shenoy K, et al.
Neuron
. 2018 Jun;
98(6):1099-1115.e8.
PMID: 29887338
Perceptions, thoughts, and actions unfold over millisecond timescales, while learned behaviors can require many days to mature. While recent experimental advances enable large-scale and long-term neural recordings with high temporal...
22.
OShea D, Kalanithi P, Ferenczi E, Hsueh B, Chandrasekaran C, Goo W, et al.
Sci Rep
. 2018 May;
8(1):6775.
PMID: 29712920
Optogenetic tools have opened a rich experimental landscape for understanding neural function and disease. Here, we present the first validation of eight optogenetic constructs driven by recombinant adeno-associated virus (AAV)...
23.
Golub M, Sadtler P, Oby E, Quick K, Ryu S, Tyler-Kabara E, et al.
Nat Neurosci
. 2018 Mar;
21(4):607-616.
PMID: 29531364
Behavior is driven by coordinated activity across a population of neurons. Learning requires the brain to change the neural population activity produced to achieve a given behavioral goal. How does...
24.
Vyas S, Even-Chen N, Stavisky S, Ryu S, Nuyujukian P, Shenoy K
Neuron
. 2018 Feb;
97(5):1177-1186.e3.
PMID: 29456026
Covert motor learning can sometimes transfer to overt behavior. We investigated the neural mechanism underlying transfer by constructing a two-context paradigm. Subjects performed cursor movements either overtly using arm movements,...
25.
Even-Chen N, Stavisky S, Kao J, Ryu S, Shenoy K
J Neural Eng
. 2017 Nov;
14(6):066007.
PMID: 29130452
Objective: Making mistakes is inevitable, but identifying them allows us to correct or adapt our behavior to improve future performance. Current brain-machine interfaces (BMIs) make errors that need to be...
26.
Kao J, Ryu S, Shenoy K
Sci Rep
. 2017 Aug;
7(1):7395.
PMID: 28784984
Intracortical brain-machine interfaces (BMIs) aim to restore lost motor function to people with neurological deficits by decoding neural activity into control signals for guiding prostheses. An important challenge facing BMIs...
27.
Stavisky S, Kao J, Ryu S, Shenoy K
Neuron
. 2017 Jun;
95(1):195-208.e9.
PMID: 28625485
Neural circuits must transform new inputs into outputs without prematurely affecting downstream circuits while still maintaining other ongoing communication with these targets. We investigated how this isolation is achieved in...
28.
Sussillo D, Stavisky S, Kao J, Ryu S, Shenoy K
Nat Commun
. 2017 Jan;
8:14490.
PMID: 28106034
No abstract available.
29.
Stavisky S, Kao J, Ryu S, Shenoy K
J Neurosci
. 2017 Jan;
37(7):1721-1732.
PMID: 28087767
Accurate motor control is mediated by internal models of how neural activity generates movement. We examined neural correlates of an adapting internal model of visuomotor gain in motor cortex while...
30.
Sussillo D, Stavisky S, Kao J, Ryu S, Shenoy K
Nat Commun
. 2016 Dec;
7:13749.
PMID: 27958268
A major hurdle to clinical translation of brain-machine interfaces (BMIs) is that current decoders, which are trained from a small quantity of recent data, become ineffective when neural recording conditions...