Magnetic nanoparticles: In vivo cancer diagnosis and therapy

International Journal of Pharmaceutics

Volumn 493, Issue 1-2, 2015, Pages 313-327

  Lima Tenório, Michele K ^a,b   Gómez Pineda, Edgardo A ^b   Ahmad, Nasir M ^c   Fessi, Hatem ^a   Elaissari, Abdelhamid ^a  

^a UNIVERSITÉ LYON 1   (France)

^b STATE UNIVERSITY OF MARINGÁ   (Brazil)

^c NATIONAL UNIVERSITY OF SCIENCES AND TECHNOLOGY   (Pakistan)

Author keywords

Cancer; Drug delivery; Hyperthermia; In vivo; Magnetic particles; MRI

Indexed keywords

MAGNETIC NANOPARTICLE; POLYMER; NANOPARTICLE;

ARTICLE; CANCER DIAGNOSIS; CANCER THERAPY; DECOMPOSITION; DRUG DELIVERY SYSTEM; DRUG SYNTHESIS; HUMAN; IN VIVO STUDY; MALIGNANT NEOPLASTIC DISEASE; MICROEMULSION; NANOEMULSION; NANOENCAPSULATION; NUCLEAR MAGNETIC RESONANCE IMAGING; PRIORITY JOURNAL; ANIMAL; CHEMISTRY; MAGNETISM; NEOPLASMS;

ANIMALS; HUMANS; MAGNETIC PHENOMENA; NANOPARTICLES; NEOPLASMS;

EID: 84938859866     PISSN: 03785173     EISSN: 18733476     Source Type: Journal    
DOI: 10.1016/j.ijpharm.2015.07.059     Document Type: Review

References (99)

1. T. Ahmad, H. Bae, Y. Iqbal, I. Rhee, S. Hong, Y. Chang, J. Lee, and D. Sohn Chitosan-coated nickel-ferrite nanoparticles as contrast agents in magnetic resonance imaging J. Magn. Magn. Mater. 381 2015 151 157
2. N. Ahmed, H. Fessi, and A. Elaissari Theranostic applications of nanoparticles in cancer Drug Discov. Today 17 2012 928 934
3. N. Ahmed, M. Michelin-Jamois, H. Fessi, and A. Elaissari Modified double emulsion process as a new route to prepare submicron biodegradable magnetic/polycaprolactone particles for in vivo theranostics Soft Matter 8 2012 2554 2564
4. K. Ariga, Y.M. Lvov, K. Kawakami, Q.M. Ji, and J.P. Hill Layer-by-layer self-assembled shells for drug delivery Adv. Drug Deliv. Rev. 63 2011 762 771
5. M. Arruebo, R. Fernández-Pacheco, M.R. Ibarra, and J. Santamaría Magnetic nanoparticles for drug delivery Nano Today 2 2007 22 32
6. M. Ashjari, S. Khoee, and A.R. Mahdavian Controlling the morphology and surface property of magnetic/cisplatin-loaded nanocapsules via W/O/W double emulsion method Colloids Surf. A 408 2012 87 96
7. 4 nanoparticles for MRI diagnosis and localized hyperthermia J. Colloid Interface Sci. 418 2014 120 125
8. M.T. Basel, S. Balivada, H. Wang, T.B. Shrestha, G.M. Seo, M. Pyle, G. Abayaweera, R. Dani, O.B. Koper, M. Tamura, V. Chikan, S.H. Bossmann, and D.L. Troyer Cell-delivered magnetic nanoparticles caused hyperthermia-mediated increased survival in a murine pancreatic cancer model Int. J. Nanomed. 7 2012 297 306
9. A. Bitar, C. Kaewsaneha, M.M. Eissa, T. Jamshaid, P. Tangboriboonrat, D. Polpanich, and A. Elaissari Ferrofluids: from preparation to biomedical applications J. Colloid Sci. Biotechnol. 3 2014 3 18
10. H. Cai, X. An, J. Cui, J. Li, S. Wen, K. Li, M. Shen, L. Zheng, G. Zhang, and X. Shi Facile hydrothermal synthesis and surface functionalization of polyethyleneimine-coated iron oxide nanoparticles for biomedical applications ACS Appl. Mater. Interfaces 5 2013 1722 1731
11. T. Crouzier, T. Boudou, and C. Picart Polysaccharide-based polyelectrolyte multilayers Curr. Opin. Colloid Interface Sci. 15 2010 417 426
12. 4/polymer composite nanoparticles in an ac magnetic field for localized hyperthermia Biomed. Mater. 1 2006 198
13. A. Elaissari Colloidal Biomolecules, Biomaterials, and Biomedical Applications 2003 CRC Press
14. J.-H. Fang, Y.-H. Lai, T.-L. Chiu, Y.-Y. Chen, S.-H. Hu, and S.-Y. Chen Magnetic core-shell nanocapsules with dual-targeting capabilities and co-delivery of multiple drugs to treat brain gliomas Adv. Healthc. Mater. 3 2014 1250 1260
15. H. Fessi, F. Puisieux, J.P. Devissaguet, N. Ammoury, and S. Benita Nanocapsule formation by interfacial polymer deposition following solvent displacement Int. J. Pharm. 55 1989 R1 R4
16. M. Filippousi, T. Altantzis, G. Stefanou, M. Betsiou, D.N. Bikiaris, M. Angelakeris, E. Pavlidou, D. Zamboulis, and G. Van Tendeloo Polyhedral iron oxide core-shell nanoparticles in a biodegradable polymeric matrix: preparation, characterization and application in magnetic particle hyperthermia and drug delivery RSC Adv. 3 2013 24367 24377
17. M. Filippousi, S.A. Papadimitriou, D.N. Bikiaris, E. Pavlidou, M. Angelakeris, D. Zamboulis, H. Tian, and G. Van Tendeloo Novel core-shell magnetic nanoparticles for Taxol encapsulation in biodegradable and biocompatible block copolymers: preparation, characterization and release properties Int. J. Pharm. 448 2013 221 230
18. M.W. Freeman, A. Arrott, and J.H.L. Watson Magnetism in medicine J. Appl. Phys. 31 1960 S404 S405
19. K.M. Gattas-Asfura, M. Valdes, E. Celik, and C.L. Stabler Covalent layer-by-layer assembly of hyperbranched polymers on alginate microcapsules to impart stability and permselectivity J. Mater. Chem. B 2 2014 8208 8219
20. M. Hałupka-Bryl, K. Asai, S. Thangavel, M. Bednarowicz, R. Krzyminiewski, and Y. Nagasaki Synthesis and in vitro and in vivo evaluations of poly(ethylene glycol)-block-poly(4-vinylbenzylphosphonate) magnetic nanoparticles containing doxorubicin as a potential targeted drug delivery system Colloids Surf. B 118 2014 140 147
21. R. Hao, R. Xing, Z. Xu, Y. Hou, S. Gao, and S. Sun Synthesis, functionalization, and biomedical applications of multifunctional magnetic nanoparticles Adv. Mater. 22 2010 2729 2742
22. S.F. Hasany, N.H. Abdurahman, A.R. Sunarti, and R. Jose Magnetic iron oxide nanoparticles: chemical synthesis and applications review Curr. Nanosci. 9 2013 561 575
23. A. Hervault, and N.T.K. Thanh Magnetic nanoparticle-based therapeutic agents for thermo-chemotherapy treatment of cancer Nanoscale 6 2014 11553 11573
24. S.-H. Hu, B.-J. Liao, C.-S. Chiang, P.-J. Chen, I.-W. Chen, and S.-Y. Chen Core-shell nanocapsules stabilized by single-component polymer and nanoparticles for magneto-chemotherapy/hyperthermia with multiple drugs Adv. Mater. 24 2012 3627 3632
25. H.S. Huang, and J.F. Hainfeld Intravenous magnetic nanoparticle cancer hyperthermia Int. J. Nanomed. 8 2013 2521 2532
26. H.Y. Huang, S.H. Hu, S.Y. Hung, C.S. Chiang, H.L. Liu, T.L. Chiu, H.Y. Lai, Y.Y. Chen, and S.Y. Chen SPIO nanoparticle-stabilized PAA-F127 thermosensitive nanobubbles with MR/US dual-modality imaging and HIFU-triggered drug release for magnetically guided in vivo tumor therapy J. Control. Release 172 2013 118 127
27. R.K. Iler Multilayers of colloidal particles J. Colloid Interface Sci. 21 1966 569 594
28. D. Jaque, L. Martinez Maestro, B. del Rosal, P. Haro-Gonzalez, A. Benayas, J.L. Plaza, E. Martin Rodriguez, and J. Garcia Sole Nanoparticles for photothermal therapies Nanoscale 6 2014 9494 9530
29. S. Kalia, S. Kango, A. Kumar, Y. Haldorai, B. Kumari, and R. Kumar Magnetic polymer nanocomposites for environmental and biomedical applications Colloid Polym. Sci. 292 2014 2025 2052
30. T. Kato, R. Nemoto, H. Mori, R. Abe, K. Unno, A. Goto, H. Murota, M. Harada, and M. Homma Magnetic microcapsules for targeted delivery of anticancer drugs Appl. Biochem. Biotechnol. 10 1984 199 211
31. E. Kharlampieva, and S.A. Sukhishvili Hydrogen-bonded layer-by-layer polymer films Polym. Rev. 46 2006 377 395
32. S. Kossatz, R. Ludwig, H. Dähring, V. Ettelt, G. Rimkus, M. Marciello, G. Salas, V. Patel, F. Teran, and I. Hilger High therapeutic efficiency of magnetic hyperthermia in xenograft models achieved with moderate temperature dosages in the tumor area Pharm. Res. 31 2014 3274 3288
33. M. Krishna Surendra, S. Annapoorani, E. Ansar, P.R. Harikrishna Varma, and M.S. Ramachandra Rao Magnetic hyperthermia studies on water-soluble polyacrylic acid-coated cobalt ferrite nanoparticles J. Nanopart. Res. 16 2014 1 14
34. C.S. Kumar, and F. Mohammad Magnetic nanomaterials for hyperthermia-based therapy and controlled drug delivery Adv. Drug Deliv. Rev. 63 2011 789 808
35. B.N.P. Kumar, N. Puvvada, S. Rajput, S. Sarkar, S.K. Das, L. Emdad, D. Sarkar, P. Venkatesan, I. Pal, G. Dey, S. Konar, K.R. Brunt, R.R. Rao, A. Mazumdar, S.C. Kundu, A. Pathak, P.B. Fisher, and M. Mandal Sequential release of drugs from hollow manganese ferrite nanocarriers for breast cancer therapy J. Mater. Chem. B 3 2015 90 101
36. S.M. Lai, J.K. Hsiao, H.P. Yu, C.W. Lu, C.C. Huang, M.J. Shieh, and P.S. Lai Polyethylene glycol-based biocompatible and highly stable superparamagnetic iron oxide nanoclusters for magnetic resonance imaging J. Mater. Chem. 22 2012 15160 15167
37. T. Lam, P. Pouliot, P.K. Avti, F. Lesage, and A.K. Kakkar Superparamagnetic iron oxide based nanoprobes for imaging and theranostics Adv. Colloid Interface Sci. 199-200 2013 95 113
38. S. Laurent, D. Forge, M. Port, A. Roch, C. Robic, L. Vander Elst, and R.N. Muller Magnetic iron oxide nanoparticles: synthesis, stabilization, vectorization, physicochemical characterizations, and biological applications Chem. Rev. 108 2008 2064 2110
39. J.-H. Lee, J.-T. Jang, J.-S. Choi, S.H. Moon, S.-H. Noh, J.-W. Kim, J.-G. Kim, I.-S. Kim, K.I. Park, and J. Cheon Exchange-coupled magnetic nanoparticles for efficient heat induction Nat. Nanotechnol. 6 2011 418 422
40. J.-H. Lee, K.-J. Chen, S.-H. Noh, M.A. Garcia, H. Wang, W.-Y. Lin, H. Jeong, B.J. Kong, D.B. Stout, J. Cheon, and H.-R. Tseng On-demand drug release system for in vivo cancer treatment through self-assembled magnetic nanoparticles Angew. Chem. Int. Ed. Engl. 52 2013 4384 4388
41. Z.X. Li, M. Kawashita, N. Araki, M. Mitsumori, M. Hiraoka, and M. Doi Magnetite nanoparticles with high heating efficiencies for application in the hyperthermia of cancer Mater. Sci. Eng. C 30 2010 990 996
42. J. Li, L. Zheng, H. Cai, W. Sun, M. Shen, G. Zhang, and X. Shi Polyethyleneimine-mediated synthesis of folic acid-targeted iron oxide nanoparticles for in vivo tumor MR imaging Biomaterials 34 2013 8382 8392
43. J. Li, Y. He, W. Sun, Y. Luo, H. Cai, Y. Pan, M. Shen, J. Xia, and X. Shi Hyaluronic acid-modified hydrothermally synthesized iron oxide nanoparticles for targeted tumor MR imaging Biomaterials 35 2014 3666 3677
44. K. Li, M. Shen, L. Zheng, J. Zhao, Q. Quan, X. Shi, and G. Zhang Magnetic resonance imaging of glioma with novel APTS-coated superparamagnetic iron oxide nanoparticles Nanoscale Res. Lett. 9 2014 304-304
45. X. Li, P. Du, and P. Liu Novel biocompatible pH-stimuli responsive superparamagnetic hybrid hollow microspheres as tumor-specific drug delivery system Colloids Surf. B 122 2014 99 106
46. H. Li, K. Yan, Y. Shang, L. Shrestha, R. Liao, F. Liu, P. Li, H. Xu, Z. Xu, and P.K. Chu Folate-bovine serum albumin functionalized polymeric micelles loaded with superparamagnetic iron oxide nanoparticles for tumor targeting and magnetic resonance imaging Acta Biomater. 15 2015 117 126
47. M. Licciardi, C. Scialabba, C. Fiorica, G. Cavallaro, G. Cassata, and G. Giammona Polymeric nanocarriers for magnetic targeted drug delivery: preparation, characterization, and in vitro and in vivo evaluation Mol. Pharm. 10 2013 4397 4407
48. Y. Ling, K. Wei, Y. Luo, X. Gao, and S. Zhong Dual docetaxel/superparamagnetic iron oxide loaded nanoparticles for both targeting magnetic resonance imaging and cancer therapy Biomaterials 32 2011 7139 7150
49. 3 core-shell magnetic nanoparticles: potential theranostic applications and in vivo toxicity studies Nanomed. Nanotechnol. 9 2013 1077 1088
50. A.-H. Lu, E.L. Salabas, and F. Schüth Magnetic nanoparticles: synthesis, protection, functionalization, and application Angew. Chem. Int. Ed. 46 2007 1222 1244
51. M. Mahdavi, M. Bin Ahmad, M.J. Haron, F. Namvar, B. Nadi, M.Z. Ab Rahman, and J. Amin Synthesis, surface modification and characterisation of biocompatible magnetic iron oxide nanoparticles for biomedical applications Molecules 18 2013 7533 7548
52. M.A. Malik, M.Y. Wani, and M.A. Hashim Microemulsion method: a novel route to synthesize organic and inorganic nanomaterials: 1st nano update Arab. J. Chem. 5 2012 397 417
53. S. Manju, and K. Sreenivasan Enhanced drug loading on magnetic nanoparticles by layer-by-layer assembly using drug conjugates: blood compatibility evaluation and targeted drug delivery in cancer cells Langmuir 27 2011 14489 14496
54. S.F. Medeiros, B.R. Lara, P.F.M. Oliveira, R.M. Moraes, G.M. Alves, A. Elaissari, and A.M. Santos Stimuli-responsive and biocompatible poly(N-vinylcaprolactam-co-acrylic acid)-coated iron oxide nanoparticles by nanoprecipitation technique J. Colloid Sci. Biotechnol. 2 2013 180 194
55. K. Miladi, D. Ibraheem, M. Iqbal, S. Sfar, H. Fessi, and A. Elaissari Particles from preformed polymers as carriers for drug delivery EXCLI J. 13 2014 28 57
56. C. Niu, Z. Wang, G. Lu, T.M. Krupka, Y. Sun, Y. You, W. Song, H. Ran, P. Li, and Y. Zheng Doxorubicin loaded superparamagnetic PLGA-iron oxide multifunctional microbubbles for dual-mode US/MR imaging and therapy of metastasis in lymph nodes Biomaterials 34 2013 2307 2317
57. H. Oliveira, E. Perez-Andres, J. Thevenot, O. Sandre, E. Berra, and S. Lecommandoux Magnetic field triggered drug release from polymersomes for cancer therapeutics J. Control. Release 169 2013 165 170
58. F.J. Pavinatto, L. Caseli, and O.N. Oliveira Chitosan in nanostructured thin films Biomacromolecules 11 2010 1897 1908
59. T. Pedro, M. María del Puerto, V.-V. Sabino, G.-C. Teresita, and J.S. Carlos The preparation of magnetic nanoparticles for applications in biomedicine J. Phys. D: Appl. Phys. 36 2003 R182
60. B. Pérez-Artacho, V. Gallardo, M.A. Ruiz, and J. Arias Maghemite/poly(d,l-lactide-co-glycolyde) composite nanoplatform for therapeutic applications J. Nanopart. Res. 14 2012 1 10
61. C. Prashant, M. Dipak, C.-T. Yang, K.-H. Chuang, D. Jun, and S.-S. Feng Superparamagnetic iron oxide - loaded poly (lactic acid)-d-α-tocopherol polyethylene glycol 1000 succinate copolymer nanoparticles as MRI contrast agent Biomaterials 31 2010 5588 5597
62. R. Qiao, C. Yang, and M. Gao Superparamagnetic iron oxide nanoparticles: from preparations to in vivo MRI applications J. Mater. Chem. 19 2009 6274 6293
63. I.L. Radtchenko, G.B. Sukhorukov, and H. Möhwald Incorporation of macromolecules into polyelectrolyte micro- and nanocapsules via surface controlled precipitation on colloidal particles Colloids Surf. A 202 2002 127 133
64. M.M.G. Saldivar-Ramirez, C.G. Sanchez-Torres, D.A. Cortes-Hernandez, J.C. Escobedo-Bocardo, J.M. Almanza-Robles, A. Larson, P.J. Resendiz-Hernandez, and I.O. Acuna-Gutierrez Study on the efficiency of nanosized magnetite and mixed ferrites in magnetic hyperthermia J. Mater. Sci. Mater. Med. 25 2014 2229 2236
65. A.B. Salunkhe, V.M. Khot, and S.H. Pawar Magnetic hyperthermia with magnetic nanoparticles: a status review Curr. Top. Med. Chem. 14 2014 572 594
66. J. Sánchez, D.A. Cortés-Hernández, J.C. Escobedo-Bocardo, R.A. Jasso-Terán, and A. Zugasti-Cruz Bioactive magnetic nanoparticles of Fe-Ga synthesized by sol-gel for their potential use in hyperthermia treatment J. Mater. Sci. Mater. Med. 25 2014 2237 2242
67. C. Sanjai, S. Kothan, P. Gonil, S. Saesoo, and W. Sajomsang Chitosan-triphosphate nanoparticles for encapsulation of super-paramagnetic iron oxide as an MRI contrast agent Carbohydr. Polym. 104 2014 231 237
68. N. Schleich, P. Sibret, P. Danhier, B. Ucakar, S. Laurent, R.N. Muller, C. Jérôme, B. Gallez, V. Préat, and F. Danhier Dual anticancer drug/superparamagnetic iron oxide-loaded PLGA-based nanoparticles for cancer therapy and magnetic resonance imaging Int. J. Pharm. 447 2013 94 101
69. A. Shakeri-Zadeh, S. Khoee, M.-B. Shiran, A.M. Sharifi, and S. Khoei Synergistic effects of magnetic drug targeting using a newly developed nanocapsule and tumor irradiation by ultrasound on CT26 tumors in BALB/c mice J. Mater. Chem. B 3 2015 1879 1887
70. I. Sharifi, H. Shokrollahi, and S. Amiri Ferrite-based magnetic nanofluids used in hyperthermia applications J. Magn. Magn. Mater. 324 2012 903 915
71. H. Shokrollahi Structure, synthetic methods, magnetic properties and biomedical applications of ferrofluids Mater. Sci. Eng. C 33 2013 2476 2487
72. H. Shokrollahi, A. Khorramdin, and G. Isapour Magnetic resonance imaging by using nano-magnetic particles J. Magn. Magn. Mater. 369 2014 176 183
73. M.F. Silva, M.A. Ciciliatti, A.A.W. Hechenleitner, R. Peñalva, M. Agüeros, J.M. Irache, A.J.A. de Oliveira, A.A. Farooqi, and E.A.G. Pineda Superparamagnetic maghemite loaded poly (Eε-caprolactone) nanocapsules: characterization and synthesis optimization Matéria (Rio de Janeiro) 19 2014 40 52
74. A. Singh, and S.K. Sahoo Magnetic nanoparticles: a novel platform for cancer theranostics Drug Discov. Today 19 2014 474 481
75. 4 magnetic nanoparticles for application in liver magnetic resonance imaging J. Magn. Magn. Mater. 388 2015 116 122
76. G.B. Sukhorukov, E. Donath, H. Lichtenfeld, E. Knippel, M. Knippel, A. Budde, and H. Möhwald Layer-by-layer self assembly of polyelectrolytes on colloidal particles Colloids Surf. A 137 1998 253 266
77. C. Sun, J.S.H. Lee, and M. Zhang Magnetic nanoparticles in MR imaging and drug delivery Adv. Drug Deliv. Rev. 60 2008 1252 1265
78. Y. Sun, Y. Zheng, H. Ran, Y. Zhou, H. Shen, Y. Chen, H. Chen, T.M. Krupka, A. Li, P. Li, Z. Wang, and Z. Wang Superparamagnetic PLGA-iron oxide microcapsules for dual-modality US/MR imaging and high intensity focused US breast cancer ablation Biomaterials 33 2012 5854 5864
79. Y. Sun, Y.Y. Zheng, P. Li, D. Wang, C.C. Niu, Y.P. Gong, R.Z. Huang, Z.B. Wang, Z.G. Wang, and H.T. Ran Evaluation of superparamagnetic iron oxide-polymer composite microcapsules for magnetic resonance-guided high-intensity focused ultrasound cancer surgery BMC Cancer 14 2014 800
80. Y.F. Tan, P. Chandrasekharan, D. Maity, C.X. Yong, K.-H. Chuang, Y. Zhao, S. Wang, J. Ding, and S.-S. Feng Multimodal tumor imaging by iron oxides and quantum dots formulated in poly (lactic acid)-d-alpha-tocopheryl polyethylene glycol 1000 succinate nanoparticles Biomaterials 32 2011 2969 2978
81. N.T.K. Thanh Magnetic Nanoparticles: From Fabrication to Clinical Applications 2012 Taylor & Francis
82. A. Tiwari Bioengineered Nanomaterials 2013 Taylor & Francis
83. 99mTc-labeled aminosilane-coated iron oxide nanoparticles for molecular imaging of ανβ3-mediated tumor expression and feasibility for hyperthermia treatment J. Colloid Interface Sci. 433 2014 163 175
84. X. Wang, J. Zhuang, Q. Peng, and Y. Li A general strategy for nanocrystal synthesis Nature 437 2005 121 124
85. 4 magnetic fluid used for magnetic resonance imaging and hyperthermia J. Magn. Magn. Mater. 323 2011 2953 2959
86. 4 nanoparticles as an MRI contrast agent J. Magn. Magn. Mater. 340 2013 57 60
87. L. Wang, T. Yang, J. Yang, Q. Li, D. Hao, J. Yang, and G. Ma In situ magnetization technique for synthesis of magnetic polymer microspheres Powder Technol. 235 2013 1017 1024
88. J. Wang, B. Zhang, L. Wang, M. Wang, and F. Gao One-pot synthesis of water-soluble superparamagnetic iron oxide nanoparticles and their MRI contrast effects in the mouse brains Mater. Sci. Eng. C 48 2015 416 423
89. K.J. Widder, R.M. Morris, G. Poore, D.P. Howard, and A.E. Senyei Tumor remission in Yoshida sarcoma-bearing rts by selective targeting of magnetic albumin microspheres containing doxorubicin Proc. Natl. Acad. Sci. U. S. A. 78 1981 579 581
90. W. Wu, Q. He, and C. Jiang Magnetic iron oxide nanoparticles: synthesis and surface functionalization strategies Nanoscale Res. Lett. 3 2008 397 415
91. J. Xie, Y. Zhang, C. Yan, L. Song, S. Wen, F. Zang, G. Chen, Q. Ding, C. Yan, and N. Gu High-performance PEGylated Mn-Zn ferrite nanocrystals as a passive-targeted agent for magnetically induced cancer theranostics Biomaterials 35 2014 9126 9136
92. S. Xie, B. Zhang, L. Wang, J. Wang, X. Li, G. Yang, and F. Gao Superparamagnetic iron oxide nanoparticles coated with different polymers and their MRI contrast effects in the mouse brains Appl. Surf. Sci. 326 2015 32 38
93. X.Q. Yang, J.J. Grailer, I.J. Rowland, A. Javadi, S.A. Hurley, D.A. Steeber, and S.Q. Gong Multifunctional SPIO/DOX-loaded wormlike polymer vesicles for cancer therapy and MR imaging Biomaterials 31 2010 9065 9073
94. D. Yoo, J.H. Lee, T.H. Shin, and J. Cheon Theranostic magnetic nanoparticles Acc. Chem. Res. 44 2011 863 874
95. H.-J. Yoon, T.G. Lim, J.-H. Kim, Y.M. Cho, Y.S. Kim, U.S. Chung, J.H. Kim, B.W. Choi, W.-G. Koh, and W.-D. Jang Fabrication of multifunctional layer-by-layer nanocapsules toward the design of theragnostic nanoplatform Biomacromolecules 15 2014 1382 1389
96. S.F. Yu, G.L. Wu, X. Gu, J.J. Wang, Y.N. Wang, H. Gao, and J.B. Ma Magnetic and pH-sensitive nanoparticles for antitumor drug delivery Colloids Surf. B 103 2013 15 22
97. V. Zavisova, M. Koneracka, M. Muckova, P. Kopcansky, N. Tomasovicova, G. Lancz, M. Timko, B. Patoprsta, P. Bartos, and M. Fabian Synthesis and characterization of polymeric nanospheres loaded with the anticancer drug paclitaxel and magnetic particles J. Magn. Magn. Mater. 321 2009 1613 1616
98. H. Zhang, D.K. Pan, K. Zou, J. He, and X. Duan A novel core-shell structured magnetic organic-inorganic nanohybrid involving drug-intercalated layered double hydroxides coated on a magnesium ferrite core for magnetically controlled drug release J. Mater. Chem. 19 2009 3069 3077
99. Z.G. Zhou, Y.A. Sun, J.C. Shen, J. Wei, C. Yu, B. Kong, W. Liu, H. Yang, S.P. Yang, and W. Wang Iron/iron oxide core/shell nanoparticles for magnetic targeting MRI and near-infrared photothermal therapy Biomaterials 35 2014 7470 7478