Suk Wha Kim scite author profile

Hyaluronic acid (HAc) hydrogel exhibits excellent biocompatibility, but it has limited biomedical application due to its poor biomechanical properties as well as too-fast enzymatic degradation. In this study, we have developed an in situ precipitation process for the fabrication of a HAc-calcium phosphate nanocomposite hydrogel, after the formation of the glycidyl methacrylate-conjugated HAc (GMHA) hydrogels via photo-cross-linking, to improve the mechanical and biological properties under physiological conditions. In particular, our process facilitates the rapid incorporation of calcium phosphate (CaP) nanoparticles of uniform size and with minimal agglomeration into a polymer matrix, homogeneously. Compared with pure HAc, the nanocomposite hydrogels exhibit improved mechanical behavior. Specifically, the shear modulus is improved by a factor of 4. The biostability of the nanocomposite hydrogel was also significantly improved compared with that of pure HAc hydrogels under both in vitro and in vivo conditions.

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The Patient Safety Curriculum for Undergraduate Medical Students as a First Step Toward Improving Patient Safety

Myung

Shin

Kim

et al. 2012

Journal of Surgical Education

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Fabrication of three-dimensional scan-to-print ear model for microtia reconstruction

Jeon

Lee

Kim

et al. 2016

Journal of Surgical Research

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Polyurethane-silica hybrid foams from a one-step foaming reaction, coupled with a sol-gel process, for enhanced wound healing

Song

Jeong

Park

et al. 2017

Materials Science and Engineering: C

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Suk Wha Kim

Effects of home-based tele-exercise on sarcopenia among community-dwelling elderly adults: Body composition and functional fitness

Strong and Biostable Hyaluronic Acid–Calcium Phosphate Nanocomposite Hydrogel via in Situ Precipitation Process

The Patient Safety Curriculum for Undergraduate Medical Students as a First Step Toward Improving Patient Safety

Fabrication of three-dimensional scan-to-print ear model for microtia reconstruction

Polyurethane-silica hybrid foams from a one-step foaming reaction, coupled with a sol-gel process, for enhanced wound healing

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