A magnetoresponsive drug delivery system via β-cyclodextrin functionalized magnetic polymer brushes

IEEE Transactions on Magnetics

Volumn 49, Issue 1, 2013, Pages 364-372

  Marten, Gernot U ^a,c   Gelbrich, Thorsten ^b   Ritter, Helmut ^b   Schmidt, Annette M ^a  

^a UNIVERSITY OF COLOGNE   (Germany)

^b UNIVERSITY OF BRITISH COLUMBIA   (Canada)

^c HEINRICH HEINE UNIVERSITY   (Germany)

Author keywords

Cyclodextrin; drug delivery; magnetic nanoparticles; on demand; stimuli responsive; thermoresponsive

Indexed keywords

2-(2-METHOXYETHOXY)ETHYL METHACRYLATE; AC FIELD; ATOM TRANSFER RADICAL COPOLYMERIZATION; COMPLEX FORMATIONS; DRUG DELIVERY SYSTEM; DRUG RELEASE; FUNCTIONAL MONOMER; FUNCTIONALIZED; HYDROPHOBIC PROBES; LOWER CRITICAL SOLUTION TEMPERATURE; MAGNETIC CARRIERS; MAGNETIC HEATING; MAGNETIC NANOPARTICLES; MAGNETIC POLYMERS; METHYL METHACRYLATES; MODEL SUBSTANCE; OLIGO(ETHYLENE GLYCOL) METHYL ETHER METHACRYLATE; ON-DEMAND; POLYMER BRUSHES; POLYMER SHELL; STIMULI-RESPONSIVE; THERMO SENSITIVE; THERMO-RESPONSIVE;

COPOLYMERIZATION; CYCLODEXTRINS; ETHERS; ETHYLENE GLYCOL; FREE RADICAL REACTIONS; IRON OXIDES; NANOPARTICLES; ORGANIC POLYMERS; PHENOLS; PROBES;

DRUG DELIVERY;

EID: 84871831466     PISSN: 00189464     EISSN: None     Source Type: Journal    
DOI: 10.1109/TMAG.2012.2224649     Document Type: Article

References (44)

1. F. van de Manakker, T. Vermonden, C. F. van Nostrum, and W. E. Hennink, "Cyclodextrin-based polymeric materials: Synthesis, properties, and pharmaceutical/biomedical applications," Biomacromolecules, vol. 10, pp. 3157-3175, 2009.
2. A. L. Laza-Knoerr, R. Gref, and P. Couvreur, "Cyclodextrins for drug delivery," J. Drug Targeting, vol. 18, pp. 645-656, 2010.
3. T. Loftsson and M. E. Brewster, "Pharmaceutical applications of cyclodextrins: Effects on drug permeation through biological membranes," J. Pharm. Pharmacol., vol. 63, pp. 1119-1135, 2011.
4. Q. A. Pankhurst, J. Connolly, S. K. Jones, and J. Dobson, "Applications of magnetic nanoparticles in biomedicine," J. Phys. D, Appl. Phys., vol. 36, pp. R167-R181, Jul. 2003.
5. Q. A. Pankhurst, N. K. T. Thanh, S. K. Jones, and J. Dobson, "Progress in applications of magnetic nanoparticles in biomedicine," J. Phys. D, Appl. Phys., vol. 42, p. 15, Nov. 2009.
6. R. D. K. Misra, "Magnetic nanoparticle carrier for targeted drug delivery: Perspective, outlook and design," Mater. Sci. Technol., vol. 24, pp. 1011-1019, 2008.
7. C. Alexiou, R. Tietze, E. Schreiber, R. Jurgons, H. Richter, L. Trahms, H. Rahn, S. Odenbach, and S. Lyer, "Cancer therapy with drug loaded magnetic nanoparticles-Magnetic drug targeting," J. Magn. Magn. Mater., vol. 323, pp. 1404-1407, 2011.
8. H. N. Cao, J. He, L. Deng, and X. Q. Gao, "Fabrication of cyclodextrin-functionalized superparamagnetic Fe3O4/amino-silane core-shell nanoparticles via layer-by-layer method," Appl. Surf. Sci., vol. 255, pp. 7974-7980, Jun. 2009.
9. S. S. Banerjee and D.-H. Chen, "Cyclodextrin-conjugated nanocarrier for magnetically guided delivery of hydrophobic drugs," J. Nanopart. Res., vol. 11, pp. 2071-2078, 2009.
10. T. Etrych, M. Jelinkova, B. Rihova, and K. Ulbrich, "New HPMA copolymers containing doxorubicin bound via pH-sensitive linkage: Synthesis and preliminary in vitro and in vivo biological properties," J. Controlled Release, vol. 73, pp. 89-102, May 2001. (Pubitemid 32406104)
11. S. C. Wuang, K. G. Neoh, E.-T. Kang, D. E. Leckband, and D. W. Pack, "Acid-sensitive magnetic nanoparticles as potential drug depots," AIChE J., vol. 57, pp. 1638-1645, 2011.
12. L. Zhu, Z. L. Huo, L. L. Wang, X. Tong, Y. Xiao, and K. Y. Ni, "Targeted delivery of methotrexate to skeletal muscular tissue by thermosensitive magnetoliposomes," Int. J. Pharmaceut., vol. 370, pp. 136-143, Mar. 2009.
13. C. Aschkenasy and J. Kost, "On-demand release by ultrasound from osmotically swollen hydrophobicmatrices," J. Controlled Release, vol. 110, p. 66, 2005.
14. I. Tokarev and S. Minko, "Multiresponsive, hierarchically structured membranes: New, challenging, biomimetic materials for biosensors, controlled release, biochemical gates, and nanoreactors," Adv. Mater., vol. 21, pp. 241-247, 2009.
15. T. F. K. Jos, F. K. Maartje, B. Henny, A. M. E. V. Micky, A. R. Stefan, H. Richard, F. S. S. Léon, L. A. M. A. P. Fabiènne, J. C. T. Naomi, T. A. van A. Dirk, F. G. Anne, A. J. Elbert, and A. E. M. Marco, "Externally triggered glass transition switch for localized on-demand drug delivery13," Angewandte Chemie-International Edition, vol. 48, pp. 9867-9870, 2009.
16. R. Weissleder, "A clearer vision for in vivo imaging," Nature Biotechnol., vol. 19, pp. 316-317, Apr. 2001.
17. Y. Sun, Z.-L. Chen, X.-X. Yang, P. Huang, X.-P. Zhou, and X.-X. Du, "Magnetic chitosan nanoparticles as a drug delivery system for targeting photodynamic therapy," Nanotechnology, vol. 20, p. 135102, 2009.
18. H. Richert, E. Surzhenko, S. Wangemann, J. Heinrich, and P. Gornert, "Development of a magnetic capsule as a drug release system for future applications in the human GI tract," J. Magn. Magn. Mater., vol. 293, pp. 497-500, May 2005. (Pubitemid 40608970)
19. A. Kaiser, T. T. Liu, W. Richtering, and A. M. Schmidt, "Magnetic capsules and pickering emulsions stabilized by core-shell particles," Langmuir, vol. 25, pp. 7335-7341, Jul. 2009.
20. A. M. Schmidt, "Thermoresponsive magnetic colloids," Colloid Polymer Sci., vol. 285, pp. 953-966, Jun. 2007. (Pubitemid 46908276)
21. A. Yao, Q. Chen, F. Ai, D. Wang, and W. Huang, "Preparation and characterization of temperature-responsive magnetic composite particles for multi-modal cancer therapy," J. Mater. Sci.: Mater. Med., vol. 22, pp. 2239-2247, 2011.
22. A. M. Schmidt, "Induction heating of novel thermoresponsive ferrofluids," J. Magn. Magn. Mater., vol. 289, pp. 5-8, Mar. 2005. (Pubitemid 40339693)
23. J. Zhang and R. D. K. Misra, "Magnetic drug-targeting carrier encapsulated with thermosensitive smart polymer: Core-shell nanoparticle carrier and drug release response," Acta Biomater., vol. 3, pp. 838-850, 2007. (Pubitemid 47382675)
24. C. Brazel, "Magnetothermally-responsive nanomaterials: Combining magnetic nanostructures and thermally-sensitive polymers for triggered drug release," Pharmaceut. Res., vol. 26, pp. 644-656, 2009.
25. D. Müller-Schulte and T. Schmitz-Rode, "Thermosensitive magnetic polymer particles as contactless controllable drug carriers," J. Magn. Magn. Mater., vol. 302, pp. 267-271, 2006.
26. P. Pradhan, J. Giri, F. Rieken, C. Koch, O. Mykhaylyk, M. Döblinger, R. Banerjee, D. Bahadur, and C. Plank, "Targeted temperature sensitive magnetic liposomes for thermo-chemotherapy," J. Controlled Release, vol. 142, pp. 108-121, 2010.
27. T. Hoare, J. Santamaria, G. F. Goya, S. Irusta, D. Lin, S. Lau, R. Padera, R. Langer, and D. S. Kohane, "A magnetically triggered composite membrane for on-demand drug delivery," Nano Lett., vol. 9, pp. 3651-3657, Oct. 2009.
28. A. M. Derfus, G. vonMaltzahn, T. J. Harris, T. Duza, K. S. Vecchio, E. Ruoslahti, and S. N. Bhatia, "Remotely triggered release frommagnetic nanoparticles," Adv. Mater., vol. 19, p. 3932-+, Nov. 2007.
29. K. Hayashi, K. Ono, H. Suzuki, M. Sawada, M. Moriya, W. Sakamoto, and T. Yogo, "High-frequency, magnetic-field-responsive drug release from magnetic nanoparticle/organic hybrid based on hyperthermic effect," ACS Appl. Mater. Interf., vol. 2, pp. 1903-1911, 2010, 2010/07/28.
30. T. Gelbrich, M. Feyen, and A. M. Schmidt, "Magnetic thermoresponsive core-shell nanoparticles," Macromolecules, vol. 39, pp. 3469-3472, May 2006. (Pubitemid 43798094)
31. T. Gelbrich, M. Feyen, and A. M. Schmidt, "Magnetic polymer brushes: Towards tailor-made stabilization of magnetic fluids by surface-initiated polymerization," Int. J. Res. Phys. Chem. Chem. Phys., vol. 220, pp. 41-49, 2006. (Pubitemid 43232681)
32. A. Kaiser, T. Gelbrich, and A. M. Schmidt, "Thermosensitivemagnetic fluids," J. Phys.-Cond. Matter, vol. 18, pp. S2563-S2580, Sep. 2006.
33. T. Gelbrich, G. U. Marten, and A. M. Schmidt, "Reversible thermoflocculation of magnetic core-shell particles induced by remote magnetic heating," Polymer, vol. 51, pp. 2818-2824, 2010.
34. T. Gelbrich, M. Reinartz, and A. M. Schmidt, "Active Ester functional single core magnetic nanostructures as a versatile immobilization matrix for effective bioseparation and catalysis," Biomacromolecules, vol. 11, pp. 635-642, Aug. 2010.
35. M. Munteanu, S. Choi, and H. Ritter, "Cyclodextrin methacrylate via microwave-assisted click reaction," Macromolecules, vol. 41, pp. 9619-9623, Dec. 2008.
36. A. Maciollek, M. Munteanu, and H. Ritter, "New generation of polymeric drugs: Copolymer from NIPAAMand cyclodextrinmethacrylate containing supramolecular-attached antitumor derivative," Macromol. Chem. Phys., vol. 211, pp. 245-249, 2010.
37. S. Choi, M. Munteanu, and H. Ritter, "Monoacrylated cyclodextrin via "click" reaction and copolymerization with N-isopropylacrylamide: Guest controlled solution properties," J. Polymer Res., vol. 16, pp. 389-394, Jul. 2009.
38. S. Amajjahe, M. Munteanu, and H. Ritter, "Switching the solubility of PMMA bearing attached cyclodextrin-moieties by supramolecular interactions with ionic liquids," Macromol. Rapid Commun., vol. 30, pp. 904-908, Jun. 2009.
39. T. Trellenkamp and H. Ritter, "Poly(N-vinylpyrrolidone) bearing covalently attached cyclodextrin via click-chemistry: Synthesis, characterization, and complexation behavior with phenolphthalein," Macromolecules, vol. 43, pp. 5538-5543, Jul. 2010.
40. R. Massart and V. Cabuil, "Effect of some parameters on the formation of colloidal magnetite in alkaline-medium-Yield and particle-size control," J. De Chimie Physique Et De Physico-Chimie Biologique, vol. 84, pp. 967-973, 1987.
41. N. Frickel, R. Messing, T. Gelbrich, and A. M. Schmidt, "Functional silanes as surface modifying primers for the preparation of highly stable and well-defined magnetic polymer hybrids," Langmuir, vol. 26, pp. 2839-2846, 2009, 2010/02/16.
42. P. K. Zarzycki and H. Lamparczyk, "The equilibrium constant of beta-cyclodextrin-phenolphtalein complex; influence of temperature and tetrahydrofuran addition," J. Pharmaceut. Biomed. Anal., vol. 18, pp. 165-170, Oct. 1998. (Pubitemid 28529333)
43. T. Okubo and M. Kuroda, "Inclusional association of phenolphthalein with cyclodextrins in the presence of poly-electrolytes and ionic detergents as studied by the temperature-jump technique," Macromolecules, vol. 22, pp. 3936-3940, Oct. 1989. (Pubitemid 20598755)
44. K. Taguchi, "Transient binding mode of phenolphthalein-cyclodextrin complex-An example of induced geometrical distortion," J. Amer. Chem. Soc., vol. 108, pp. 2705-2709, May 1986.