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NTIS 바로가기공업화학 = Applied chemistry for engineering, v.32 no.5, 2021년, pp.556 - 561
이승준 (서원대학교 제약공학과 공정개발연구실)
Recently, iron oxide nanoparticles have been used as the subject of many studies on drug delivery system (DDS) due to their excellent magnetic properties and biocompatibility in response to external magnetic fields. In this study, hyaluronic acid-superparamagnetic microneedles (HA-SMNs) and carboxy ...
J. S. Lee, J. H. Lee, J. K. Shim, and W. Hur, Microencapsulation of Iron Oxide Nanoparticles and Their Application in Magnetic Levitation of Cells, Appl. Chem. Eng., 31(1), 13-18 (2020).
T. Neuberger, B. Schopf, H. Hofmann, M. Hofmann, and B. Von Rechenberg, Superparamagnetic nanoparticles for biomedical applications: Possibilities and limitations of a new drug delivery system, J. Magn. Magn. Mater., 293, 483-496 (2005).
K. Mahmoudi, A. Bouras, D. Bozec, R. Ivkov, and C. Hadjipanayis, Magnetic hyperthermia therapy for the treatment of glioblastoma: A review of the therapy's history, efficacy and application in humans, Int. J. Hyperthermia, 34, 1316-1328 (2018).
H. K. Min, J. A. Kim, J. C. Kim, and S. J. Lee, Preparation and Characterization of Superparamagnetic Microneedles (SMMNs) containing Magnetic Cubosome Nanoparticles (MCNs), J. Adv. Eng. Technol., 12(3), 103-108 (2019).
S. J. Lee, J. R. Jeong, S. C. Shin, and J. D. Kim, Synthesis and Characterization of Superparamagnetic Maghemite Nanoparticles Prepared by Coprecipitation Technique, J. Magn. Magn. Mater., 282, 147-150 (2004).
S. J. Lee, J. R. Jeong, S. C. Shin, Y. M. Huh, H. T. Song, J. S. Suh, Y. H. Chang, B. S. Jeon, and J. D. Kim, Intracellular translocation of superparamagnetic iron oxide nanoparticles encapsulated with peptide-conjugated Poly(D,L lactide-co-glycolide), J. Appl. Phys., 97, 10Q913 (2005).
S. J. Lee, J. R. Jeong, S. C. Shin, Y. H. Chang, and J. D. Kim, Magnetic Enhancement of Iron Oxide Nanoparticles Encapsulated with Poly(D,L latide-co-glycolide), Colloids Surf. A, 225, 19-25 (2005).
J. R. Jeong, S. J. Lee, J. D. Kim, and S. C. Shin, Magnetic Properties of Fe3O4 Nanoparticle Encapsulated with Poly(D,L Laticde-co-Glycolide), IEEE Trans. Mag., 40(4), 3015-3017 (2004).
D. Ling, N. Lee, and T. Hyeon, Chemical synthesis and assembly of uniformly sized iron oxide nanoparticles for medical applications, Acc. Chem. Res., 48, 1276-1285 (2015).
R. Wassel, B. Grady, R. Kopke, and K. Dormer, Dispersion of superparamagnetic iron oxide nanoparticles in poly (D,L-lactide-coglycolide) microparticles, Colloids Surf. A, 292, 125-130 (2007).
S. J. Lee, H. J. Kim, Y. M. Huh, I. W. Kim, J. H. Jeong, J. C. Kim, and J. D. Kim, Functionalized magnetic PLGA Nanospheres for Targeting and Bioimaging of breast cancer, J. Nanosci. Nanotechnol., 18, 1542-1547 (2018)
H. Ryu, H. Koo, I. Sun, S. Yuk, K. Choi, K. Kim, and I. Kwon, Tumor-targeting multi-functional nanoparticles for theragnosis: New paradigm for cancer therapy, Adv. Drug Deliv. Rev., 64, 1447-1458 (2012).
H. Na, I. Song, and T. Hyeon, Inorganic nanoparticles for MRI contrast agents, Adv. Mater., 21, 2133-2148 (2009).
Y. G. Kim, S. M. Lee, D. B. Kim, K. M. Noh, K. S. Oh, S. H. Cho, E. P. Choi, K. P. Kim, and K. M. Huh, Preparation and Characterization of Poly(ethylene glycol)-Doxorubicin/SPION Magnetic Nanoparticles for Cancer Therapy, Polymer(Korea), 42(6) 1059-1067 (2018).
J. H. Park, S. O. Choi, S. Seo, Y. B. Choy, and M. R. Prausnitz, A microneedle roller for transdermal drug delivery, Eur. J. Pharm. Biopharm., 76, 282 (2010).
J. W. Lee, S. O. Choi, E. I. Felner, and M. R. Prausnitz, Dissolving Microneedle Patch for Transdermal Delivery of Human Growth Hormone, Small, 7(4), 531 (2011)
S. K. Han, H. Y. Ha, and S. J. Lee, Fabrication of Microneedles array Combining Biodegradable Hyaluronic acid and Herbal Medicine Lonicera flos, Polymer(Korea), 43(4), 540-546 (2019).
S. K. Han, S. J. Lee, and H. Y. Ha, Skin Moisturizing Effects of a Microneedle Patch Containing Hyaluronic Acid and Lonicerae flos, Processes, 9, 321, 1-8 (2021).
G. Bonfante, H. J. Lee, L. Bao, J. H. Park, N. Takama, and B. J. Kim, Comparison of polymers to enhance mechanical properties of microneedles for bio-medical applications, Micro Nano Syst. Lett. 8:13 (2020).
R. V. Dixon, E. Skaria, W. M. Lau, P. Manning, M. A. Birch-Machin, S. M. Moghimi, and K. W. Ng, Microneedle-based devices for point-of-care infectious disease diagnostics, Acta Pharm. Sin. B., 11(8), 2344-2361 (2021).
Z. Wang, J. Luan, A. Seth, L. Liu, M. You, P. Gupta, P. Rathi, Y. Wang, S. Cao, Q. Jiang, X. Zhang, R. Gupta, Q. Zhou, J. J. Morrissey, E. L. Scheller, J. S. Rudra, and S. Singamaneni, Microneedle patch for the ultrasensitive quantification of protein biomarkers in interstitial fluid, Nat. Biomed. Eng., 5, 64-76 (2021).
S. J. Lee, Fabrication and Characterization of Micropatterned Elastomeric PDMS Mold, J. Adv. Eng. Technol., 20(3), 335 (2017).
C. B. Kim, E. G. Lim, S. W. Shin, H. J. Krause, and H. B. Hong, Magnetic immunoassay platform based on the planar frequency mixing magnetic technique, Biosens. Bioelectron., 83(15), 293-299 (2016).
H. B. Hong, H. J. Krause, I. H. Nam, C. J. Choi, and S. W. Shin, Magnetic immunoassay based on frequency mixing magnetic detection and magnetic particles of different magnetic properties, Anal. Methods, 6(19), 8055-8058 (2014).
H. J. Krause, N. Wolters, Y. Zhang, A. Offenhausser, P. Miethe, M. Meyer, M. Hartmann, and M. Keusgen, Magnetic particle detection by frequency mixing for immunoassay applications, J. of J. Magn. Magn. Mater., 311, 436-444 (2007).
S. J. Lee, J. R. Jeong, S. C. Shin, J. C. Kim, Y. H. Chang, Y. M. Chang, and J. D. Kim, Nanoparticles of magnetic ferric oxides encapsulated with poly (D, L latide-co-glycolide) and their applications to magnetic resonance imaging contrast agent, J. Magn. Magn. MAter., 272-276, 2432-2433 (2004).
H. Li, S. Yang, D. Hui, and R. Hong, Progress in magnetic Fe3O4 nanomaterials in magnetic resonance imaging, Nanotechnol. Rev., 9, 1265-1283 (2020).
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