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이정환,강길손,김영래,이소진,양재원,박진영,김은영,이동원 한국약제학회 2014 Journal of Pharmaceutical Investigation Vol.44 No.5
Celecoxib with low solubility and high permeability (BCS class II) in water is a non-steroidal anti-inflammatory drug used in the treatment of pain and inflammation, associated with rheumatoid arthritis, and several other inflammatory disorders. Also, it is a selective cyclooxygenase 2 inhibitor with low water solubility and high crystallinity. The objective of this study was to improve dissolution rate of celecoxib which was water-insoluble drug. Solid dispersions were prepared by spray drying as the solvent evaporation method. The dissolution behavior of solid dispersions was compared with Celebrex® (Pfizer) as a control group in simulated gastric juice (pH 1.2, 0.5 % SLS. The characterization of the prepared solid dispersions is analyzed by scanning electron microscope, powder X-ray diffractometer, Fourier transform infrared spectroscopy and reverse phase-high performance liquid chromatography The best formulation was SD 8 in this study. It was the cumulative release of 97 % at 120 min. This study suggests that the solubility and bioavailability of poorly water-soluble celecoxib improved through the prepared solid dispersions by spray drying method.
김민정,박헌석,김지원,이은영,이마리,유영혜,강길손,박정규,윤건호 대한내분비학회 2021 Endocrinology and metabolism Vol.36 No.1
Background: The microencapsulation is an ideal solution to overcome immune rejection without immunosuppressive treatment. Poor biocompatibility and small molecular antigens secreted from encapsulated islets induce fibrosis infiltration. Therefore, the aims of this study were to improve the biocompatibility of microcapsules by dexamethasone coating and to verify its effect after xenogeneic transplantation in a streptozotocin-induced diabetes mice. Methods: Dexamethasone 21-phosphate (Dexa) was dissolved in 1% chitosan and was cross-linked with the alginate microcapsule surface. Insulin secretion and viability assays were performed 14 days after microencapsulation. Dexa-containing chitosan-coated alginate (Dexa-chitosan) or alginate microencapsulated porcine islets were transplanted into diabetic mice. The fibrosis infiltration score was calculated from the harvested microcapsules. The harvested microcapsules were stained with trichrome and for insulin and macrophages. Results: No significant differences in glucose-stimulated insulin secretion and islet viability were noted among naked, alginate, and Dexa-chitosan microencapsulated islets. After transplantation of microencapsulated porcine islets, nonfasting blood glucose were normalized in both the Dexa-chitosan and alginate groups until 231 days. The average glucose after transplantation were lower in the Dexa-chitosan group than the alginate group. Pericapsular fibrosis and inflammatory cell infiltration of microcapsules were significantly reduced in Dexa-chitosan compared with alginate microcapsules. Dithizone and insulin were positive in Dexa-chitosan capsules. Although fibrosis and macrophage infiltration was noted on the surface, some alginate microcapsules were stained with insulin. Conclusion: Dexa coating on microcapsules significantly suppressed the fibrotic reaction on the capsule surface after transplantation of xenogenic islets containing microcapsules without any harmful effects on the function and survival of the islets.