■ 논문
[1] Kim SH, Yeon YK, Lee JM, Chao JR, Lee YJ, Seo YB, et al. Precisely printable and biocompatible silk fibroin bioink for digital light processing 3D printing. Nature communications 2018;9:1620.
[2] Park HJ, Kim SH(Co-1st), Ju HW, Lee H, Lee Y, Park S, et al. Microplasma Jet Arrays as a Therapeutic Choice for Fungal Keratitis. Scientific reports 2018;8:2422.
[3] Yeon YK, Park HS, Lee JM, Lee JS, Lee YJ, Sultan MT, Seo YB, Lee OJ, Kim SH, Park CH, New concept of 3D printed bone clip (polylactic acid/hydroxyapatite/silk composite) for internal fixation of bone fractures. Journal of Biomaterials Science, Polymer Edition 2018;29:894-906.
[4] Sultan MT, Jeong JY, Seo YB, Lee OJ, Ju HW, Park HJ, Lee YJ, Lee JS, Kim SH, Park CH, Fabrication and characterization of the porous duck’s feet collagen sponge for wound healing applications. Journal of Biomaterials Science, Polymer Edition 2018;29:960-71.
[5] Kim SH, Lee HJ, Yoo J-C, Park HJ, Jeong JY, Seo YB, Sultan MT, Kim SH, Lee OJ, Park CH, Novel transparent collagen film patch derived from duck’s feet for tympanic membrane perforation. Journal of Biomaterials Science, Polymer Edition 2018;29:997-1010.
[6] Seo YB, Lee OJ, Sultan MT, Lee JM, Park YR, Yeon YK, Lee JS, Lee YJ, Kim SH, Park CH, In vitro and in vivo evaluation of the duck's feet collagen sponge for hemostatic applications. Journal of biomaterials applications 2017;32:484-91.
[7] Lee JM, Sultan MT, Kim SH, Kumar V, Yeon YK, Lee OJ, et al. Artificial auricular cartilage using silk fibroin and polyvinyl alcohol hydrogel. International journal of molecular sciences 2017;18:1707.
[8] Kim HJ, Lee S, Yun H-W, Yin XY, Kim SH, Choi BH, et al. In vivo degradation profile of porcine cartilage-derived extracellular matrix powder scaffolds using a non-invasive fluorescence imaging method. Journal of Biomaterials Science, Polymer Edition 2016;27:177-90.
[9] Kim SH, Song JE, Lee D, Khang G. Development of poly (lactide-co-glycolide) scaffold impregnated small intestinal submucosa with pores that stimulate extracellular matrix production in disc regeneration. Journal of tissue engineering and regenerative medicine 2014;8:279-90.
[10] Chung JE, Tan S, Gao SJ, Yongvongsoontorn N, Kim SH, Lee JH, et al. Self-assembled micellar nanocomplexes comprising green tea catechin derivatives and protein drugs for cancer therapy. Nature nanotechnology 2014;9:907.
[11] Ashitate Y, Hyun H, Kim SH, Lee JH, Henary M, Frangioni JV, et al. Simultaneous mapping of pan and sentinel lymph nodes for real-time image-guided surgery. Theranostics 2014;4:693.
[12] Owens EA, Hyun H, Kim SH, Lee JH, Park G, Ashitate Y, et al. Highly charged cyanine fluorophores for trafficking scaffold degradation. Biomedical Materials 2013;8:014109.
[13] Kim SH, Park G, Hyun H, Lee JH, Ashitate Y, Choi J, et al. Near-infrared lipophilic fluorophores for tracing tissue growth. Biomedical materials 2013;8:014110.
[14] Kim SH, Lee JH, Hyun H, Ashitate Y, Park G, Robichaud K, et al. Near-infrared fluorescence imaging for noninvasive trafficking of scaffold degradation. Scientific reports 2013;3:1198.
[15] Choi HS, Gibbs SL, Lee JH, Kim SH, Ashitate Y, Liu F, et al. Targeted zwitterionic near-infrared fluorophores for improved optical imaging. Nature biotechnology 2013;31:148.
[16] Kim SH, Song JE, Lee D, Khang G. Demineralized bone particle impregnated poly (l-Lactide-co-Glycolide) scaffold for application in tissue-engineered intervertebral discs. Journal of Biomaterials Science, Polymer Edition 2012;23:2153-70.
[17] Hyun H, Bordo MW, Nasr K, Feith D, Lee JH, Kim SH, et al. cGMP-Compatible preparative scale synthesis of near-infrared fluorophores. Contrast media & molecular imaging 2012;7:516-24.
[18] Ashitate Y, Kim SH(Co-1st), Tanaka E, Henary M, Choi HS, Frangioni JV, et al. Two-wavelength nearinfrared fluorescence for the quantitation of drug antiplatelet effects in large animal model systems. Journal of vascular surgery 2012;56:171-80.
[19] Choi HS, Nasr K, Alyabyev S, Feith D, Lee JH, Kim SH, et al. Synthesis and in vivo fate of zwitterionic near-infrared fluorophores. Angewandte Chemie International Edition 2011;50:6258-63.
[20] Kim S-J, Hong H-H, Kim S-H, Kim H-L, Kim S-H, Khang G-S. Reduction of inflammatory reaction of PLGA using fibrin; in vivo study. Polymer Korea 2010;34:63-8.
[21] Kim MH, Hong HN, Hong JP, Park CJ, Kwon SW, Kim SH, et al. The effect of VEGF on the myogenic differentiation of adipose tissue derived stem cells within thermosensitive hydrogel matrices. Biomaterials 2010;31:1213-8.
[22] Choi HS, Ashitate Y, Lee JH, Kim SH, Matsui A, Insin N, et al. Rapid translocation of nanoparticles from the lung airspaces to the body. Nature biotechnology 2010;28:1300.
[23] So J-W, Jang J-W, Kim S-H, Kim G-A, Choi J-H, Rhee J-M, et al. Preparation and Release Behavior of Ipriflavone-Loaded PLGA Microsphere for Tissue Engineered Bone. Polymer Korea 2009;33:26-32.
[24] Oh A, Kim S-H, Kim Y-T, Jeon N-R, Yang J-C, Lee S-J, et al. A study on proliferation and phenotypical stability of Schwann cell on keratin/PLGA film. Polymer Korea 2009;33:118-23.
[25] Jang J-W, Baek M-O, Kim S-H, Choi J-H, Yang J-C, Hong H-H, et al. Preparation and characterization of sponge using demineralized bone particle. Polymer Korea 2009;33:104-10.
[26] Kim SH, Jang JW, Jung SH, Choi JH, Ha HJ, Rhee JM, et al. Chondrogenesis of Rat Bone Marrow Stromal Cells in Transforming Growth Factor-beta 1 Loaded Alginate Bead in In Vivo. TISSUE ENGINEERING AND REGENERATIVE MEDICINE 2008;5:650-9.
[27] Yoon SJ, Kim SH, Ha HJ, Ko YK, So JW, Kim MS, et al. Reduction of Inflammatory Reaction of Poly (D, L-Lactic-C o-Glycolic Acid) Using Demineralized Bone Particles. Tissue Engineering Part A 2008;14:539-47.
[28] So J-W, Jang J-W, Kim S-H, Choi J-H, Rhee J-M, Min B-H, et al. The effect of pore sizes on poly (L-lactide-co-glycolide) scaffolds for annulus fibrosus tissue regeneration. Polymer Korea 2008;32:516-22.
[29] Sha'Ban M, Yoon SJ, Ko YK, Ha HJ, Kim SH, So JW, et al. Fibrin promotes proliferation and matrix production of intervertebral disc cells cultured in three-dimensional poly (lactic-co-glycolic acid) scaffold. Journal of Biomaterials Science, Polymer Edition 2008;19:1219-37.
[30] Sha'Ban M, Kim SH, Idrus RB, Khang G. Fibrin and poly (lactic-co-glycolic acid) hybrid scaffold promotes early chondrogenesis of articular chondrocytes: an in vitro study. Journal of orthopaedic surgery and research 2008;3:17.
[31] Oh A, Kim S-H, Lee S-J, Yoo JJ, Dyke Mv, Rhee JM, et al. Preparation and characterization of PLGA scaffold impregnated keratin for tissue engineering application. Polymer Korea 2008;32:403-8.
[32] Munirah S, Kim S, Ruszymah B, Khang G. The use of fibrin and poly (lactic-co-glycolic acid) hybrid scaffold for articular cartilage tissue engineering: an in vivo analysis. Eur Cell Mater 2008;15:e52.
[33] Lim J-Y, Kim S-H, Kang G-S, Rhee JM. Preparation and characterization of tissue engineered scaffold using porcine small intestinal submucosa and hyaluronic Acid. Polymer Korea 2008;32:415-20.
[34] Ko Y-K, Jeong J-S, Kim S-H, Lim J-Y, Rhee J-M, Kim M-S, et al. Effect of 2-D DBP/PLGA hybrid films on attachment and proliferation of intervertebral disc cells. Polymer Korea 2008;32:109-15.
[35] Ko Y-K, Choi M-K, Kim S-H, Kim G-A, Lee H-B, Rhee J-M, et al. Sustained release of proteins using small intestinal submucosa modified PLGA scaffold. Polymer Korea 2008;32:199-205.
[36] Kim C-M, Kim S-H, Oh A, Kim G-A, Lee I-W, Rhee J-M, et al. Preparation and BDNF release profile of BDNF-loaded PLGA scaffolds for tissue engineered nerve regeneration. Polymer Korea 2008;32:529-36.
[37] Kim C-M, Kim S-H, Kim S-M, Park S-W, Lee I-W, Kim M-S, et al. The effect of transplantation of Schwann cell and SIS sponge on the injured peripheral nerve regeneration. Polymer Korea 2008;32:49-55.
[38] Ha H-J, Kim S-H, Yoon S-J, Park S-W, So J-W, Kim M-S, et al. Evaluation of various scaffolds for tissue engineered biodisc using annulus fibrosus cells. Polymer Korea 2008;32:26-30.
[39] Cho MH, Kim KS, Ahn HH, Kim MS, Kim SH, Khang G, et al. Chitosan gel as an in situ–.forming scaffold for rat bone marrow mesenchymal stem cells in vivo. Tissue Engineering Part A 2008;14:1099-108.
[40] Ko Y-K, Kim S-H, Jeong J-S, Park J-S, Lim J-Y, Kim M-S, et al. Preparation and characterization of hyaluronic acid loaded PLGA scaffold by emulsion freeze-drying method. Polymer Korea 2007;31:505-11.
[41] Ko Y-K, Kim S-H, Jeong J-S, Ha H-J, Yoon S-J, Rhee J-M, et al. Biodisc tissue-engineered using PLGA/DBP hybrid scaffold. Polymer Korea 2007;31:14-9.
[42] Ko YK, Kim SH, Ha HJ, Yoon SJ, Rhee JM, Kim MS, et al. Hybrid type of tissue engineered biodisc using annulus fibrosus seeded PLGA scaffold and nucleus pulposus seeded MPEG-PCL hydrogel: Preliminary study. Key Engineering Materials: Trans Tech Publ; 2007. p. 173-6.
[43] Kim SH, Ha HJ, Ko YK, Yoon SJ, Rhee JM, Kim MS, et al. Correlation of proliferation, morphology and biological responses of fibroblasts on LDPE with different surface wettability. Journal of Biomaterials Science, Polymer Edition 2007;18:609-22.
[44] Kim SH, Choi BS, Ko YK, Ha HJ, Yoon SJ, Rhee JM, et al. The characterization of PLGA/small intestinal submucosa composites as scaffolds for intervertebral disc. Key Engineering Materials: Trans Tech Publ; 2007. p. 389-92.
[45] Kim MS, Shin YN, Cho MH, Kim SH, Kim SK, Cho YH, et al. Adhesion behavior of human bone marrow stromal cells on differentially wettable polymer surfaces. Tissue engineering 2007;13:2095-103.
[46] Lee M-S, Yang J-C, Kim S-H, Song I-B, Kim M-S, Khang G-S, et al. Preparation and characterization of small intestinal submucosa coated with poly (vinyl alcohol) for wound dressing. Polymer Korea 2006;30:259-65.
[47] Kim S-K, Hyun H, Kim S-H, Yoon S-J, Kim M-S, Rhee J-M, et al. Osteogenic differentiation of bone marrow stem cells using thermo-sensitive hydrogels. Polymer Korea 2006;30:196-201.
[48] Kim SH, Yun SJ, Jang JW, Kim MS, Khang G, Lee HB. Effects of SIS/PLGA porous scaffolds and muscle-derived stem cell on the formation of tissue engineered bone. Polymer Korea 2006;30:14-21.
[49] Kim SH, Yoon SJ, Choi B, Ha HJ, Rhee JM, Kim MS, et al. Evaluation of various types of scaffold for tissue engineered intervertebral disc. Tissue Engineering: Springer; 2006. p. 167-81.
[50] Kim M, Kim SK, Kim SH, Hyun H, Khang G, Lee HB. In vivo osteogenic differentiation of rat bone marrow stromal cells in thermosensitive MPEG–.PCL diblock copolymer gels. Tissue engineering 2006;12:2863-73.
[51] Yang DH, Yoon GH, Shin GJ, Kim SH, Rhee JM, Khang G, et al. Surface and chemical properties of surface-modified UHMWPE powder and mechanical and thermal properties of its impregnated PMMA bone cement V. Effect of silane coupling agent on the surface modification of UHMWPE powder. Macromolecular research 2005;13:120-7.
[52] Yang DH, Yoon GH, Kim SH, Rhee JM, Kim YS, Khang G. Surface and chemical properties of surface-modified UHMWPE powder and mechanical and thermal properties of it impregnated PMMA bone cement, III: effect of various ratios of initiator/inhibitor on the surface modification of UHMWPE powder. Journal of Biomaterials Science, Polymer Edition 2005;16:1121-38.
[53] Park KS, Jin CM, Yun SJ, Hong KD, Kim SH, Kim MS, et al. Effects of SIS Sponge and Bone marrow-derived stem cells on the osteogenic differentiation for tissue engineered bone. Polymer Korea 2005;29:501-7.
[54] Park KS, Jin CM, Kim SH, Rhee JM, Khang G, Han CW, et al. Chondrogenic differentiation of bone marrow stromal cells in transforming growth factor-β 1 loaded alginate bead. Macromolecular research 2005;13:285-92.
[55] Kwon SY, Kim WY, Lee DY, Kim SH, Han CW, Khang GS. Chondrogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells in PGA Polymeric Scaffolds. Journal of Korean Orthopaedic Research Society 2005;8:76-85.
[56] Kim MS, Hong KD, Shin HW, Kim SH, Kim SH, Lee MS, et al. Preparation of porcine small intestinal submucosa sponge and their application as a wound dressing in full-thickness skin defect of rat. International journal of biological macromolecules 2005;36:54-60.
[57] Hong KD, Seo KS, Kim SH, Kim SK, Khang G, Shin HS, et al. Preparation and release behavior of albumin-loaded PLGA scaffold by ice particle leaching method. Polymer Korea 2005;29:282-7.
[58] Yang DH, Yoon GH, Kim SH, Rhee JM, Khang G. Surface and chemical properties of surfacemodified UHMWPE powder and mechanical properties of self curing PMMA bone cement containing UHMWPE powder I. Effect of MMA/Xylene contents on surface modification of UHMWPE. Polymer Korea 2004;28:77-85.
■ 리뷰 & 저서
[1] Kim SH, Choi J, Ha Y, Lee JH, Khang G, Choi HS, Noninvasive Imaging of Tissue-Engineered Scaffolds, International Journal of Tissue Regeneration, 2014;5(1):1~8. (Review)
[2] A Manual for Differentiation of Bone Marrow-derived Stem Cells to Specific Cell Types: World Scientific. 2014
- Kim SH, Choi K-H, Min B-H. Protocol of Chondrogenesis from BMSC on a Porcine Chondrocytes-Derived Extracellular Matrix Scaffold. p.33-40.
- Kim SH, Khang G. Protocol of Chondrogenesis from BMSCs using TGF-β Loaded Alginate Bead. p.17-24.
- Song JE, Kim EY, Kim SH, Khang G. Protocol of Chondrogenesis from Human BMSCs by Pellet Culture. p.25-31.
- Song JE, Kim SH, Kim CM, Khang G. Protocol of Schwann Cell Differentiation of BMSC by Direct Co-culture Method Using Insert System. p.119-25.
[3] Kim SH, Min B-H. A new era of cartilage repair using cell therapy and tissue engineering: turning current clinical limitations into new ideas. Tissue Engineering and Regenerative Medicine 2012;9:240-8. (Review)
[4] Min BH, Kim SH, Part III, Chapter 28, Regeneration of cartilage, In: Tissue Engineering Techniques in Experiments of Tissue Engineering & Regenerative Medicine, edited by Tissue Eng. Regen. Med., Jayoo Academy, 196-202 (2012).
[5] Khang G, Jung YS, Kim SH, Kim MS, Lee HB. Delivery system of bioactive molecules for regenerative medicine. NanoScience in Biomedicine: Springer; 2009. p. 347-68.
[6] Khang G, Kim SH, Rhee JM, Sha'Ban M, Idrus RBH. Synthetic/natural hybrid scaffold for cartilage and disc regenerations. Biomaterials in Asia: World Scientific; 2008. p. 207-21.
[7] Khang G, Kim SH, Kim MS, Lee HB. Hybrid, composite, and complex biomaterials for scaffolds. Principles of Regenerative Medicine: Elsevier; 2008. p. 636-55.
[8] Khang G, Kim SH, Lee HB. Protocol for Solvent-Casting/Salt-Leaching Method. A Manual For Biomaterials/Scaffold Fabrication Technology: World Scientific; 2007. p. 13-24.