Y. J. Park scite author profile

Y. J. Park

2Publications

35Citation Statements Received

39Citation Statements Given

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Ewha Womans University

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Biological effects of drug‐loaded biodegradable membranes for guided bone regeneration

Chung

Kim

Park

et al. 1997

J of Periodontal Research

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The biological effects of drug-loaded biodegradable novel membrane for guided bone regeneration (GBR) was evaluated. The membranes were polyglycolic acid mesh coated with poly-L-lactic acid containing flurbiprofen, tetracycline or PDGF-BB. Porous structure was generated in the membranes by using a phase inversion method. The membrane was less toxic, nicely biodegradable and biocompatible for 8 wk after implantation in the dorsal skin of the rat. The drugs released from the membranes were shown to be effective for new bone formation. Tetracycline, flurbiprofen or PDGF-BB loaded membrane was markedly effective for osteoid tissue and new bone formation in the bony defect prepared in rat calvaria to compare with that by unloaded membrane. These results suggested that drug-loaded biodegradable barrier membrane might be a potential tool for GBR in periodontal therapy.

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Biomimetic fabrication of calcium phosphate/chitosan nanohybrid composite in modified simulated body fluids

Park¹,

Kim²,

Hwang³

et al. 2017

Express Polym. Lett.

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Abstract. In this study, nucleation and growth of bone-like hydroxyapatite (HAp) mineral in modified simulated body fluids (m-SBF) were induced on chitosan (CS) substrates, which were prepared by spin coating of chitosan on Ti substrate. The m-SBF showed a two fold increase in the concentrations of calcium and phosphate ions compared to SBF, and the postNaOH treatment provided stabilization of the coatings. The calcium phosphate/chitosan composite prepared in m-SBF showed homogeneous distribution of approximately 350 nm-sized spherical clusters composed of octacalcium phosphate (OCP; Ca 8 H 2 (PO 4 ) 6 ·5H 2 O) crystalline structure. Chitosan provided a control over the size of calcium phosphate prepared by immersion in m-SBF, and post-NaOH treatment supported the binding of calcium phosphate compound on the Ti surface. Post-NaOH treatment increased hydrophilicity and crystallinity of carbonate apatite, which increased its potential for biomedical application.

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Y. J. Park

Biological effects of drug‐loaded biodegradable membranes for guided bone regeneration

Biomimetic fabrication of calcium phosphate/chitosan nanohybrid composite in modified simulated body fluids

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