Xinyan T Cui
Overview
Explore the profile of Xinyan T Cui including associated specialties, affiliations and a list of published articles.
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Articles
9
Citations
267
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0
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Recent Articles
1.
Christensen M, Cui X, Rieth L, Warren D
Front Neurosci
. 2024 Nov;
18:1505912.
PMID: 39529699
No abstract available.
2.
Drewry M, Shi D, Dailey M, Rothermund K, Trbojevic S, Almarza A, et al.
J Neural Eng
. 2024 Aug;
21(5).
PMID: 39197480
. Engineered nerve conduits must simultaneously enhance axon regeneration and orient axon extension to effectively restore function of severely injured peripheral nerves. The dental pulp contains a population of stem/progenitor...
3.
Ding R, Miller N, Woeppel K, Cui X, Jacobs T
Langmuir
. 2022 Jun;
38(24):7512-7521.
PMID: 35678760
While roughening the surface of neural implants has been shown to significantly improve their performance, the mechanism for this improvement is not understood, preventing systematic optimization of surfaces. Specifically, prior...
4.
Ahmed M, Shi D, Dailey M, Rothermund K, Drewry M, Calabrese T, et al.
Tissue Eng Part A
. 2020 Nov;
27(17-18):1128-1139.
PMID: 33164704
An effective strategy for sustained neurotrophic factor (NTF) delivery to sites of peripheral nerve injury (PNI) would accelerate healing and enhance functional recovery, addressing the major clinical challenges associated with...
5.
Luo X, Matranga C, Tan S, Alba N, Cui X
Biomaterials
. 2011 Jun;
32(26):6316-23.
PMID: 21636128
On demand release of anti-inflammatory drug or neurotropic factors have great promise for maintaining a stable chronic neural interface. Here we report the development of an electrically controlled drug release...
6.
Luo X, Weaver C, Zhou D, Greenberg R, Cui X
Biomaterials
. 2011 May;
32(24):5551-7.
PMID: 21601278
The function and longevity of implantable microelectrodes for chronic neural stimulation depends heavily on the electrode materials, which need to present high charge injection capability and high stability. While conducting...
7.
Azemi E, Lagenaur C, Cui X
Biomaterials
. 2010 Oct;
32(3):681-92.
PMID: 20933270
Brain tissue inflammatory responses, including neuronal loss and gliosis at the neural electrode/tissue interface, limit the recording stability and longevity of neural probes. The neural adhesion molecule L1 specifically promotes...
8.
Tang Z, Sclabassi R, Sun C, Hackworth S, Zhao J, Cui X, et al.
Conf Proc IEEE Eng Med Biol Soc
. 2007 Oct;
2006:644-7.
PMID: 17945991
Many implantable devices require large capacity batteries implanted in the body. Transcutaneous battery recharging can effectively maintain the longevity of these implants. Based on this consideration we have developed a...
9.
Stauffer W, Cui X
Biomaterials
. 2005 Dec;
27(11):2405-13.
PMID: 16343612
In the field of neural tissue engineering, electrically conducting, biocompatible surfaces are of great interest. Over the past several decades conducting polymers have been studied as candidate surfaces because they...