Seok Hyun Lee
Overview
Explore the profile of Seok Hyun Lee including associated specialties, affiliations and a list of published articles.
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30
Citations
322
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Recent Articles
1.
Kang M, Yu Y, Park R, Heo H, Lee S, Hong S, et al.
Nanomicro Lett
. 2024 Jan;
16(1):73.
PMID: 38175358
Current therapeutic approaches for volumetric muscle loss (VML) face challenges due to limited graft availability and insufficient bioactivities. To overcome these limitations, tissue-engineered scaffolds have emerged as a promising alternative....
2.
Song B, Lee S, Park J, Moon K
Cancer Res Treat
. 2023 Sep;
56(1):280-293.
PMID: 37697729
Purpose: This study aimed to evaluate the molecular features of clear cell adenocarcinoma (CCA) of the urinary tract and investigate its pathogenic pathways and possible actionable targets. Materials And Methods:...
3.
Lee S, Kang M, Jeon S, Jo H, Hong S, Kim B, et al.
Heliyon
. 2023 Mar;
9(3):e14490.
PMID: 36994406
Contemporary advances in three-dimensional (3D) bioprinting technologies have enabled the fabrication of tailored live 3D tissue mimetics. Furthermore, the development of advanced bioink materials has been highlighted to accurately reproduce...
4.
Lee S, Jeon S, Qu X, Kang M, Lee J, Han D, et al.
Nano Converg
. 2022 Aug;
9(1):38.
PMID: 36029392
Conventional bioinert bone grafts often have led to failure in osseointegration due to low bioactivity, thus much effort has been made up to date to find alternatives. Recently, MXene nanoparticles...
5.
Kang M, Kwon M, Lee S, Kim W, Lee G, Jo H, et al.
Chem Asian J
. 2022 Jul;
17(18):e202200620.
PMID: 35866189
Recent advances in three-dimensional (3D) bioprinting technologies have enabled the fabrication of sophisticated live 3D tissue analogs. Despite the existing hydrogel-based bioinks, the development of advanced bioink materials that can...
6.
Kang M, Jang H, Lee S, Shin Y, Hong S, Lee J, et al.
Adv Exp Med Biol
. 2022 Feb;
1351:65-87.
PMID: 35175612
With the emerging trends and recent advances in nanotechnology, it has become increasingly possible to overcome current hurdles for bone and cartilage regeneration. Among the wide type of nanomaterials, graphene...
7.
Raja I, Molkenova A, Kang M, Lee S, Lee J, Kim B, et al.
Adv Exp Med Biol
. 2022 Feb;
1351:23-39.
PMID: 35175610
Graphene family nanomaterials (GFNs) are well-known carbonaceous materials, which find application in several fields like optoelectronics, photocatalysis, nanomedicine, and tissue regeneration. Despite possessing many advantages in biomedical applications, GFNs exhibited...
8.
Kim C, Raja I, Lee J, Lee J, Kang M, Lee S, et al.
Biosensors (Basel)
. 2021 Sep;
11(9).
PMID: 34562928
Artificial olfactory systems are needed in various fields that require real-time monitoring, such as healthcare. This review introduces cases of detection of specific volatile organic compounds (VOCs) in a patient's...
9.
Kang M, Jang H, Lee S, Lee J, Jo H, Jeong S, et al.
Materials (Basel)
. 2021 Sep;
14(17).
PMID: 34501203
While conventional dental implants focus on mechanical properties, recent advances in functional carbon nanomaterials (CNMs) accelerated the facilitation of functionalities including osteoinduction, osteoconduction, and osseointegration. The surface functionalization with CNMs...
10.
Kang M, Jeong S, Lee S, Kim B, Hong S, Lee J, et al.
Biomater Res
. 2021 Feb;
25(1):4.
PMID: 33579390
Background: Titanium (Ti) has been utilized as hard tissue replacement owing to its superior mechanical and bioinert property, however, lack in tissue compatibility and biofunctionality has limited its clinical use....