10 J Lee*, E Lee*, SJ Huh, JI Kang, KM Park, H Byun, SM Lee, E Kim, and H Shin, "Composite spheroids-laden bilayer hydrogel for engineering 3D osteochondral tissue", Tissue Engineering Part A, 2024
9 JP Fisher, AG Mioks, K Schenke-Layland, H Shin, JA Jansen, and X Wang, "30 Years of Tissue Engineering", Tissue Engineering Part A, 30.1-2: 3-4, 2024
8 H Byun, S Lee, and H Shin. "Bioassembly of multicellular spheroids to mimic complex tissue structure using surface-modified magnetized nanofibers.", Biofabrication, 16(2), 025006, 2024
7 H Kwon, S Lee, H Byun, S J Huh, E Lee, E Kim, J Lee and H Shin, "Engineering pre-vascularized 3D tissue and rapid vascular integration with host blood vessels via co-cultured spheroids-laden hydrogel", Biofabrication, 16(2), 025029, 2024
6 H Byun*, Y Han*, E Kim, I Jun, J Lee, H Jeong, S J Huh, J Joo, S R Shin, and H Shin, "Cell-homing and immunomodulatory composite hydrogels for effective wound healing with neovascularization", Bioactive Materials, 36: 185-202, 2024
5 S Lee, J Lee, S Choi, E Kim, H Kwon, J Lee, S M Kim, H Shin, "Biofabrication of 3D adipose tissue via assembly of composite stem cell spheroids containing adipo-inductive dual-signal delivery nanofibers", Biofabrication, 2024 in press
4 Y.J. Lee, E. Lee, H. Shin*, and K.M. Huh*, “Synthesis and characterization of methacryl glycol chitosan as a novel functionally advanced thermogel for biomedical applications”, Int. J. Biol. Macromol. in press, 2024 (*co-correspondence)
3 B. Son, W. Lee, H. Kim, H. Shin* and H.H, Park*, “Targeted therapy of cancer stem cells: inhibition of mTOR in pre-clinical and clinical research”, Cell Death & Disease, 30;15(9):696, 2024
2 H. Jeong, H. Byun, J. Lee, Y. Han, S.J. Huh, and H. Shin, “Enhancement of bone tissue regeneration with multi-functional nanoparticles by coordination of immune, osteogenic, and angiogenic responses”, Adv. Healthc. Mater. in press, 2024 (selected as a back cover)
1 E. Kim, J. Lee, S.-J. Kim, E. M. Kim, H. Byun, S.J. Huh, E. Lee, and H. Shin, “Biomimetic composite gelatin methacryloyl hydrogels for improving survival and osteogenesis of human adipose derived stem cells in 3D microenvironment”, Materials Today Bio, in press, 2024
