Follow
Yang-Hee Kim
Title
Cited by
Cited by
Year
Osteogenic and angiogenic tissue formation in high fidelity nanocomposite Laponite-gelatin bioinks
G Cidonio, CR Alcala-Orozco, KS Lim, M Glinka, I Mutreja, YH Kim, ...
Biofabrication 11 (3), 035027, 2019
1632019
Enhancement of bone regeneration by dual release of a macrophage recruitment agent and platelet-rich plasma from gelatin hydrogels
YH Kim, H Furuya, Y Tabata
Biomaterials 35 (1), 214-224, 2014
1502014
Dual-controlled release system of drugs for bone regeneration
YH Kim, Y Tabata
Advanced drug delivery reviews 94, 28-40, 2015
1232015
Nanoclay-based 3D printed scaffolds promote vascular ingrowth ex vivo and generate bone mineral tissue in vitro and in vivo
G Cidonio, M Glinka, YH Kim, JM Kanczler, SA Lanham, T Ahlfeld, A Lode, ...
Biofabrication 12 (3), 035010, 2020
762020
Bisphosphonate nanoclay edge-site interactions facilitate hydrogel self-assembly and sustained growth factor localization
YH Kim, X Yang, L Shi, SA Lanham, J Hilborn, ROC Oreffo, D Ossipov, ...
Nature communications 11 (1), 1365, 2020
712020
Recruitment of mesenchymal stem cells and macrophages by dual release of stromal cell‐derived factor‐1 and a macrophage recruitment agent enhances wound closure
YH Kim, Y Tabata
Journal of Biomedical Materials Research Part A 104 (4), 942-956, 2016
622016
Self‐Assembling Nanoclay Diffusion Gels for Bioactive Osteogenic Microenvironments
P Shi, YH Kim, M Mousa, RR Sanchez, ROC Oreffo, JI Dawson
Advanced healthcare materials 7 (15), 1800331, 2018
512018
Fabrication and characterization of porous poly(lactic-co-glycolic acid) (PLGA) microspheres for use as a drug delivery system
TQ Bao, NT Hiep, YH Kim, HM Yang, BT Lee
Journal of materials science 46, 2510-2517, 2011
362011
Enhancement of wound closure by modifying dual release patterns of stromal‐derived cell factor‐1 and a macrophage recruitment agent from gelatin hydrogels
YH Kim, Y Tabata
Journal of tissue engineering and regenerative medicine 11 (11), 2999-3013, 2017
252017
Structured nanofilms comprising LaponiteŽ and bone extracellular matrix for osteogenic differentiation of skeletal progenitor cells
D Choi, J Heo, JA Milan, ROC Oreffo, JI Dawson, J Hong, YH Kim
Materials Science and Engineering: C 118, 111440, 2021
222021
Nanoclay–Polyamine Composite Hydrogel for Topical Delivery of Nitric Oxide Gas via Innate Gelation Characteristics of Laponite
K Park, JI Dawson, ROC Oreffo, YH Kim, J Hong
Biomacromolecules 21 (6), 2096-2103, 2020
212020
Novel approach to the fabrication of an artificial small bone using a combination of sponge replica and electrospinning methods.
YH Kim, BT Lee
Science and Technology of Advanced Materials 12 (3), 035002, 2011
202011
From hurdle to springboard: The macrophage as target in biomaterial-based bone regeneration strategies
YH Kim, ROC Oreffo, JI Dawson
Bone 159, 116389, 2022
192022
Microstructure control of TCP/TCP(t-ZrO 2)/t-ZrO 2 composites for artificial cortical bone
DWJ Jang, YH Kim, BT Lee
Materials Science and Engineering: C 31 (8), 1660–1666, 2011
162011
Gelatin methacryloyl hydrogels for musculoskeletal tissue regeneration
YH Kim, JI Dawson, ROC Oreffo, Y Tabata, D Kumar, C Aparicio, I Mutreja
Bioengineering 9 (7), 332, 2022
132022
Multi-scale analysis of the composition, structure, and function of decellularized extracellular matrix for human skin and wound healing models
AM Sarmin, N El Moussaid, R Suntornnond, EJ Tyler, YH Kim, S Di Cio, ...
Biomolecules 12 (6), 837, 2022
122022
PCL Infiltration into a BCP Scaffold Strut to Improve the Mechanical Strength while Retaining Other Properties
MS Kim, YH Kim, IH Park, YK Min, HS Seo, BT Lee
Korean Journal of Materials Research 20 (6), 331-337, 2010
112010
Nanocomposite clay-based bioinks for skeletal tissue engineering
G Cidonio, M Glinka, YH Kim, JI Dawson, ROC Oreffo
Computer-Aided Tissue Engineering: Methods and Protocols, 63-72, 2021
92021
Fabrication and Characterization of Strengthened BCP Scaffold Through Infiltration of PCL in the Frame
M Kim, IH Park, YH Kim, HY Song, YK Min, BT Lee
Bioceramics Development and Applications 1, DOI:10.4303/bda/D110118, 2011
62011
Nanoclay-based 3D printed scaffolds promote vascular ingrowth ex vivo and generate bone mineral tissue in vitro and in vivo. Biofabrication 2020; 12: 035010
G Cidonio, M Glinka, YH Kim, JM Kanczler, SA Lanham, T Ahlfeld, A Lode, ...
6
The system can't perform the operation now. Try again later.
Articles 1–20