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다국어 초록 (Multilingual Abstract)

Porous nanosilica (PNS) has been identified as a potential candidate for controlled drug delivery. However, unmodified PNS-based carriers exhibited an initial release of loaded bioactive agents, which may limit their potential clinical applications. In this study, the surface of PNS was functionalized with adamantylamine (ADA) via disulfide bonds (-S-S-), PNS-S-S-ADA, which was then modified with cyclodextrin (CD)-heparin (Hep) (CDHep), PNS-S-S-CDH, for redox triggered rhodamine B (RhB) delivery. The obtained samples were then characterized by proton nuclear magnetic resonance (<SUP>1</SUP>H NMR), Fourier transform infrared (FTIR), and transmission electron microscope (TEM). These results showed that PNS-S-S-CDH was successfully formed with spherical shape and average diameter of 45.64 ± 2.33 nm. In addition, RhB was relatively encapsulated in the PNS-S-S-CDH (RhB@PNS-S-S-CDH) and slowly released up to 3 days. The release of RhB, in particular, was triggered due to the cleavage of -S-S- in the presence of dithiothreitol (DTT). It might be anticipated that the modified PNS can be used as redox-responsive drug delivery system in cancer therapy.

목차 (Table of Contents)

Abstract
I. Introduction
II. Experiment
III. Results and Discussion
IV. Conclusion

Abstract
I. Introduction
II. Experiment
III. Results and Discussion
IV. Conclusion
References

참고문헌 (Reference)

1 Yan-Li Zhao, "pH-Operated Nanopistons on the Surfaces of Mesoporous Silica Nanoparticles" American Chemical Society (ACS) 132 (132): 13016-13025, 2010

2 D. H. Nguyen, "Targeting ligand-functionalized and redox-sensitive heparin-Pluronic nanogels for intracellular protein deliveryThis work was presented at the 8th China–Korea Symposium on Biomaterials and Nano-Bio Technology (Pyeongchang, Korea, Dec. 13–17 2010)" 6 (6): 055004-, 2011

3 Paula P. Menezes, "Solid-state β-cyclodextrin complexes containing geraniol" Elsevier BV 548 : 45-50, 2012

4 Liangliang Dai, "Redox-Responsive Nanocarrier Based on Heparin End-Capped Mesoporous Silica Nanoparticles for Targeted Tumor Therapy in Vitro and in Vivo" American Chemical Society (ACS) 30 (30): 7867-7877, 2014

5 Xing Ma, "Redox-Responsive Mesoporous Silica Nanoparticles: A Physiologically Sensitive Codelivery Vehicle for siRNA and Doxorubicin" Mary Ann Liebert Inc 21 (21): 707-722, 2014

6 Nhat-Anh N. Tong, "Preparation of the Cationic Dendrimer-Based Hydrogels for Controlled Heparin Release" Informa UK Limited 52 (52): 830-837, 2015

7 Zhe-Bin Zheng, "N-(2-Hydroxypropyl)methacrylamide Copolymers of a Glutathione (GSH)-Activated Glyoxalase I Inhibitor and DNA Alkylating Agent: Synthesis, Reaction Kinetics with GSH, and in Vitro Antitumor Activities" American Chemical Society (ACS) 16 (16): 598-607, 2005

8 I SLOWING, "Mesoporous silica nanoparticles as controlled release drug delivery and gene transfection carriers" Elsevier BV 60 (60): 1278-1288, 2008

9 Igor I. Slowing, "Mesoporous Silica Nanoparticles for Reducing Hemolytic Activity Towards Mammalian Red Blood Cells" Wiley-Blackwell 5 (5): 57-62, 2009

10 I. I. Slowing, "Mesoporous Silica Nanoparticles for Drug Delivery and Biosensing Applications" Wiley-Blackwell 17 (17): 1225-1236, 2007

1 Yan-Li Zhao, "pH-Operated Nanopistons on the Surfaces of Mesoporous Silica Nanoparticles" American Chemical Society (ACS) 132 (132): 13016-13025, 2010

3 Paula P. Menezes, "Solid-state β-cyclodextrin complexes containing geraniol" Elsevier BV 548 : 45-50, 2012

5 Xing Ma, "Redox-Responsive Mesoporous Silica Nanoparticles: A Physiologically Sensitive Codelivery Vehicle for siRNA and Doxorubicin" Mary Ann Liebert Inc 21 (21): 707-722, 2014

6 Nhat-Anh N. Tong, "Preparation of the Cationic Dendrimer-Based Hydrogels for Controlled Heparin Release" Informa UK Limited 52 (52): 830-837, 2015

8 I SLOWING, "Mesoporous silica nanoparticles as controlled release drug delivery and gene transfection carriers" Elsevier BV 60 (60): 1278-1288, 2008

9 Igor I. Slowing, "Mesoporous Silica Nanoparticles for Reducing Hemolytic Activity Towards Mammalian Red Blood Cells" Wiley-Blackwell 5 (5): 57-62, 2009

10 I. I. Slowing, "Mesoporous Silica Nanoparticles for Drug Delivery and Biosensing Applications" Wiley-Blackwell 17 (17): 1225-1236, 2007

11 Jeonghun Lee, "Intracellular release of anticancer agents from a hollow silica nanocontainer with glutathione-responsive cyclodextrin gatekeepers" Royal Society of Chemistry (RSC) 38 (38): 4652-4655, 2014

12 Ping Luo, "Incorporation of camptothecin into reduction-degradable supramolecular micelles for enhancing its stability" Elsevier BV 109 : 167-175, 2013

13 Thi Tram Chau Nguyen, "Highly lipophilic pluronics-conjugated polyamidoamine dendrimer nanocarriers as potential delivery system for hydrophobic drugs" Elsevier BV 70 : 992-999, 2017

14 Dai Hai Nguyen, "Hierarchical self-assembly of magnetic nanoclusters for theranostics: Tunable size, enhanced magnetic resonance imagability, and controlled and targeted drug delivery" Elsevier BV 35 : 109-117, 2016

15 Dai Hai Nguyen, "Heparin Nanogel-Containing Liposomes for Intracellular RNase Delivery" 한국고분자학회 23 (23): 765-769, 2015

16 Dong Quy Hoang, "Functionalization of Fe3O4 nanoparticles with biodegradable chitosan-grafted-mPEG for paclitaxel delivery" Walter de Gruyter GmbH 5 (5): 459-466, 2016

17 Dai Hai Nguyen, "Disulfide-crosslinked heparin-pluronic nanogels as a redox-sensitive nanocarrier for intracellular protein delivery" SAGE Publications 26 (26): 287-300, 2011

18 Chiyoung Park, "Controlled Release of Guest Molecules from Mesoporous Silica Particles Based on a pH-Responsive Polypseudorotaxane Motif" Wiley-Blackwell 46 (46): 1455-1457, 2007

19 Dai Hai Nguyen, "Bioreducible cross-linked Pluronic micelles: pH-triggered release of doxorubicin and folate-mediated cellular uptake" SAGE Publications 28 (28): 341-354, 2013

20 Na Li, "A Near-Infrared Light-Triggered Nanocarrier with Reversible DNA Valves for Intracellular Controlled Release" Wiley-Blackwell 23 (23): 2255-2262, 2013

연월일	이력구분	이력상세
2024	평가예정	재인증평가 신청대상 (재인증)
2021-01-01	평가	등재학술지 선정 (계속평가)
2020-12-01	평가	등재후보로 하락 (재인증)
2017-01-01	평가	등재학술지 선정 (계속평가)
2016-01-01	평가	등재후보학술지 유지 (계속평가)
2015-12-01	평가	등재후보로 하락 (기타)
2011-01-01	평가	등재 1차 FAIL (등재유지)
2009-01-01	평가	등재학술지 유지 (등재유지)
2006-01-01	평가	등재학술지 선정 (등재후보2차)
2005-10-17	학술지명변경	외국어명 : 미등록 -> Journal of IKEEE
2005-05-30	학술지등록	한글명 : 전기전자학회논문지 외국어명 : 미등록
2005-03-25	학회명변경	한글명 : (사) 한국전기전자학회 -> 한국전기전자학회 영문명 : 미등록 -> Institute of Korean Electrical and Electronics Engineers
2005-01-01	평가	등재후보 1차 PASS (등재후보1차)
2004-01-01	평가	등재후보 1차 FAIL (등재후보1차)
2003-01-01	평가	등재후보학술지 선정 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	0.3	0.3	0.29
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.24	0.22	0.262	0.17

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Design and decoration of heparin on porous nanosilica via reversible disulfide linkages for controlled drug release

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