Hwayeon Ryu
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Explore the profile of Hwayeon Ryu including associated specialties, affiliations and a list of published articles.
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Articles
9
Citations
27
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Recent Articles
1.
Frank A, Larripa K, Ryu H, Roblitz S
J Theor Biol
. 2023 Oct;
575:111634.
PMID: 37839584
Polarization is the process by which a macrophage cell commits to a phenotype based on external signal stimulation. To know how this process is affected by random fluctuations and events...
2.
Miller J, Ryu H, Wang X, Booth V, Campbell S
Front Comput Neurosci
. 2022 Sep;
16:903883.
PMID: 36051629
Neural firing in many inhibitory networks displays synchronous assembly or clustered firing, in which subsets of neurons fire synchronously, and these subsets may vary with different inputs to, or states...
3.
Ryu H, Miller J, Teymuroglu Z, Wang X, Booth V, Campbell S
Math Biosci
. 2021 Mar;
336:108591.
PMID: 33775666
Neurons in the inhibitory network of the striatum display cell assembly firing patterns which recent results suggest may consist of spatially compact neural clusters. Previous computational modeling of striatal neural...
4.
Ryu H, Campbell S
Math Biosci Eng
. 2020 Dec;
17(6):7931-7957.
PMID: 33378927
We study a model for a network of synaptically coupled, excitable neurons to identify the role of coupling delays in generating different network behaviors. The network consists of two distinct...
5.
Frank A, Larripa K, Ryu H, Snodgrass R, Roblitz S
J Theor Biol
. 2020 Oct;
509:110511.
PMID: 33045246
In this paper, we present and analyze a mathematical model for polarization of a single macrophage which, despite its simplicity, exhibits complex dynamics in terms of multistability. In particular, we...
6.
Ryu H, Campbell S
Philos Trans A Math Phys Eng Sci
. 2019 Jul;
377(2153):20180129.
PMID: 31329073
We study synaptically coupled neuronal networks to identify the role of coupling delays in network synchronized behaviour. We consider a network of excitable, relaxation oscillator neurons where two distinct populations,...
7.
Ryu H, Layton A
J Math Biol
. 2013 Mar;
68(4):1023-49.
PMID: 23529284
The glomerular filtration rate in the kidney is controlled, in part, by the tubuloglomerular feedback (TGF) system, which is a negative feedback loop that mediates oscillations in tubular fluid flow...
8.
Layton A, Pham P, Ryu H
Int J Numer Method Biomed Eng
. 2012 May;
28(3):369-83.
PMID: 22577511
To study the transformation of fluctuations in filtration rate into tubular fluid chloride concentration oscillations alongside the macula densa, we have developed a mathematical model for tubuloglomerular feedback (TGF) signal...
9.
Effect of tubular inhomogeneities on feedback-mediated dynamics of a model of a thick ascending limb
Ryu H, Layton A
Math Med Biol
. 2012 Apr;
30(3):191-212.
PMID: 22511507
One of the key mechanisms that mediate renal autoregulation is the tubuloglomerular feedback (TGF) system, which is a negative feedback loop in the kidney that balances glomerular filtration with tubular...