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Mucoadhesive property is the major function as an adhesive for medical devices, and therefore, these days many researches have conducted to develop polymers having this property. Recently, biomimetic technology has been used for developing mucoadhesive polymers. Among many technologies, mussel-inspired approaches have received noticeable attention because of its thread's strong adhesive characteristics. In this study, we synthesized mucoadhesive biomimetic polymers employing catechol structures which are abundant in mussel adhesive proteins, and their structures and molecular weights were characterized by using nuclear magnetic resonance spectroscopy and gel permeation chromatography. To evaluate in vitro mucoadhesive strength, the sheet type of the small intestinal porcine submucosa was prepared. Compared to commercial fibrin glue adhesives, catechol-containing mucoadhesive polymers showed enhanced adhesive strength. The study of adhesive strength with considering diverse factors, such as temperature, pressure, and oxidant amount indicated that mussel-inspired mucoadhesive polymer could be a promising candidate for an adhesive in various biomedical applications.

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Various Cathode Design for Cu Emission Line In See-through Hollow Cathode Glow Discharge (st-HCGD)

우정수¹,

Yongseong²,

최규성³

et al. 2004

Journal of the Korean Chemical Society

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We have investigated the intensity of Cu 510.6 nm emission line in see-through hollow cathode glow discharge (st-HCGD) for the development of medical Cu vapor laser. In order to acquire the stable plasma in st-HCGD cell at high current, several factors such as current, the length and the inner diameter of cathode tube, the shape of the tube, and the range of the sputtering range were tested. An optimum condition in our st-HCGD cell was obtained at 600 V, 700 mA, 2.3 Torr of Ar gas (100 SCCM), and 40 mm of tube with 4-11-4 mm type cathode design. Also, it was indi rectly observed that temperature in the cell could reach more than 10 0C since Cu cathode was melt at the current more than 700 mA (melting point of Cu, 1084 °C).

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이상천

Co-treatment with Fermented Black Raspberry and Red Ginseng Extracts Improves Lipid Metabolism and Obesity in Rats Fed with a High-fat and High-cholesterol Diet

Synthesis and Characterization of Catechol-Containing Biomimetic Mucoadhesive Polymers

Various Cathode Design for Cu Emission Line In See-through Hollow Cathode Glow Discharge (st-HCGD)

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