ANIONIC CLAY AS A DRUG DELIVERY VEHICLE
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概要
- 論文の詳細を見る
Inorganic nanomaterials hybridized with other functional inorganic, organic, and/or bio molecules are attracting great interest in science and technology. This review demonstrates the bio-inorganic nanohybrids with drug delivery function, where drug or gene molecules are intercalted into the layered double hydroxide (LDH), anionic clay. The enhanced drug efficacy of drug-LDH nanohybrids are described in detail with the biocompatibility of LDH, delivery vehicle. According to the cellular uptake experiments on various cell culture lines, we could conclude that the LDH nanoparticles are internalized into cells via clathrin-mediated endocytosis, delivering encapsulated drugs efficiently.
著者
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Oh Jae-min
Center For Intelligent Nano-bio Materials Division Of Nano Sciences Bk21 Department Of Bioinspired S
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Choy Jin-ho
Center For Intelligent Nano-bio Materials Division Of Nano Sciences Bk21 Department Of Bioinspired S
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Choi Soo-jin
Center For Intelligent Nano-bio Materials Division Of Nano Sciences Bk21 Department Of Bioinspired S
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Choy Jin-ho
Center For Intelligent Nano-bio Materials Department Of Chemistry And Nano Science Department Of Bio
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Oh Jae-min
Department Of Chemistry And Medical Chemistry Yonsei University
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Choi Soo-jin
Department Of Food Science And Technology Seoul Women's University
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Park Myung-chul
Center For Intelligent Nano-bio Materials Department Of Chemistry And Nano Science Department Of Bio
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PARK DAE-HWAN
Center for Intelligent Nano-Bio Materials, Department of Chemistry and Nano Science, Department of B
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OH YEON-JI
Center for Intelligent Nano-Bio Materials, Department of Chemistry and Nano Science, Department of B
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Park Dae-hwan
Center For Intelligent Nano-bio Materials Department Of Chemistry And Nano Science Department Of Bio
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Oh Yeon-ji
Center For Intelligent Nano-bio Materials Department Of Chemistry And Nano Science Department Of Bio
関連論文
- Biocompatible ceramic nanocarrier for drug delivery with high efficiency
- 2P574 Bio-organic-inorganic ternary nanohybrids for DNA-barcode system(53. Bioengineering,Poster Session,Abstract,Meeting Program of EABS &BSJ 2006)
- S3e2-4 Cellular uptake of anticancer drug encased metal hydroxide nanoparticles via clathrin mediated endocytosis(S3-e2: "Molecular Communication: Biologically Inspired Communication Systems for Nano-Scale Devices",Symposia,Abstract,Meeting Program of EAB
- ANIONIC CLAY AS A DRUG DELIVERY VEHICLE