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Ivana Jovanović Magistarska teza [1] M. Stevanović, Sinteza, karakterizacija i degradacija poli(DL-laktid-ko-glikolid) nanosfera koje sadrže askorbinsku kiselinu, Doktorska disertacija, Fakultet za fizičku hemiju, Beograd 2007. [2] N. Ignjatović, Sinteza i dizajniranje strukture i osobina hidroksiapatit-polilaktid kompozitnih biomaterijala, Doktorska disertacija, Tehnološko metalurški fakultet, Beograd 2001. [3] R. Živković, Komparativno ispitivanje efikasnosti biomaterijala i lasera male snage u reparaciji koštanih defekata, Magistarska teza, Niš 2005. [4] M. Agrawal, Reconstructing the human body using biomaterials, JOM Journal of the Minerals, Metals and Materials Society, 50 (1998) 31-35. [5] J. C. Middleton, A. J. Tipton, Synthetic biodegradable polymers as medical devices, Medical Plastics and Biomaterials Magazine 199 (1998) 1089-1098. [6] P. Chattopadhyay, B. Y. Shekunov, J. S. Seitzinger, R. W. Huff, Composite particles and method for preparing, United States Patent No. US 6,966,990 Nov. 22 (2005) [7] T. Kubik, K. Bogunia-Kubik, M. Sugisaka, Nanotechnology on duty in medical applications, Current Pharmaceutical Biotechnology 6 (2005) 17-33. [8] P. C. Johnson, A. G. Mikos, J. P. Fisher, J. A. Jansen, Strategic directions in tissue engineering, Tissue Engineering 13 (2007) 2827-2837. [9] J. Tan, W. Mark Saltzman, Biomaterials with hierarchically defined micro- and nanoscale structure, Biomaterials 25 (2004) 3593-3601. [10] M. N. V. Ravi Kumar, Nano and microparticles as controlled drug delivery devices, Journal of Pharmaceutical Sciences 3 (2000) 234-258. [11] Y. Gao, L. Kong, L. Zhang, Y. Gong, G. Chen, N. Zhao, X. Zhang, Improvement of mechani cal properties of poly(D, L-lactide) films by blending of poly(3-hydroxybutyrate-co-3- hydroxyhexanoate), European Polymer Journal 42 (2006) 764-775. [12] J. Katz, Developments in medical polymers for biomaterials applications, Medical Device & Diagnostic Industry Magazine MDDI Article Index, 2001. [13] N. Saito, N. Murakami, J. Takahashi, H. Horiuchi, H. Ota, H. Kato, T. Okada, K. Nozaki, K. Takaoka, Synthetic biodegardable polymers as drug delivery systems for bone morphogenetic proteins, Advanced Drug Delivery Reviews 57 (2005) 1037-1048. [14] Y. M. Lin, A. R. Boccaccini, J. M. Polak , A. E. Bishop, Biocompatibility of poly-DLlactic acid (PDLLA) for lung tissue Engineering, Journal of Biomaterials Applications 21 (2006) 109- 118. [15] D. Anderson, Coating particles, methods of making and using, United States Patent US 7105229, 9.12.2006 [16] M. Plavšić, Polimerni materijali nauka i inženjerstvo, Naučna knjiga, Beograd 1996. [17] I. Lynch, T. Cedervall, M. Lundqvist, C. Cabaleiro-Lago, S. Linse, K. A. Dawson, The nanoparticle-protein complex as a biological entity; a complex fluids and surface science challenge for the 21st century, Advances in Colloid and Interface Science 134-135 (2007) 167-174. 120
Ivana Jovanović Magistarska teza [18] C. P. Reis, R. J. Neufeld, A. J. Ribeiro, F. Veiga, Nanoencapsulation I. Methods for preparation drug-loaded polymeric nanoperticles, Nanomedicine: Nanotechnology, Biology and Medicine 2 (2006) 8-21. [19] L. G. Griffith, Polymeric Biomaterials, Acta materialia 48 (2000) 263-277. [20] H. Zhao, J. Gagnon, U. O Häfeli, Process and formulation variables in the preparation of injectable and biodegradable magnetic microspheres, Biomagnetic Research and Technology 5 (2007) 1-11. [21] G. Orive, R. M. Hernández, A. R. Gascón, J. L. Pedraz, Micro and nano drug delivery systems in cancer therapy, Cancer Therapy 3 (2005) 131-138. [22] K. Derakhshandeh, M. Erfan, S. Dadashzadeh, Encapsulation of 9-nitrocamptothecin, a novel anticancer drug, in biodegradable nanoparticles: factorial design, characterization and release kinetics, European Journal of Pharmaceutics and Biopharmaceutics 66 (2007) 34-41. [23] E.-S. Khafagy, M. Morishita, Y. Onuki, K. Takayama, Current challenges in noninvasive insulin delivery systems: a comparative review, Advanced Drug Delivery Reviews 59 (2007) 1521-1546. [24] V. Kanchan, A. K. Panda, Interactions of antigen-loaded polylactide particles with macrophages and their correlation with the immune response, Biomaterials 28 (2007) 5344-5357. [25] O. C. Ferokhzad, S. Jon, A. Khademhosseini, T.-N. T. Tran, D. A. LaVan, R. Langer, Nanoparticle-aptamer bioconjugates: a new approach for targeting prostate cancer cells, Cancer Research 64 (2004) 7668-7672. [26] M. L. Hans, Synthesis, characterization, and application of biodegradable polymeric prodrug micelles for long-term drug delivery, Ph. D. Thesis, Drexel University, 2005. [27] M. Zilberman, O. Grinberg, HRP-Loaded bioresorbable microspheres: effect of copolymer composition and molecular weight on microstructure and release profile, Journal of Biomaterials Applications 22 (2007) 391-407. [28] D. Blanco, M. J. Alonso, Protein encapsulation and release from poly(lactide-coglycolide) microspheres: effect of the protein and polymer properties and of the co-encapsulation of surfactants, European Journal of Pharmaceutics and Biopharmaceutics 45 (1998) 285-294. [29] C.-M. Dong, Y.-Z. Guo, K.-Y. Qiu, Z.-W. Gu, X.-D. Feng, In vitro degradation and controlled release behavior of D,L-PLGA50 and PCL-b-D,L-PLGA50 copolymer microspheres, Journal of Controlled Release 107 (2005) 53-64. [30] O.V. Salata, Applications of nanoparticles in biology and medicine, Journal of Nanobiotechnology 2 (2004) 1-6. [31] J. Tam, W. M. Saltzman, Biomaterials with hierarchically defined micro- and nanoscale structure, Biomaterials 25 (2004) 3593-3601. [32] D. Radulescu, Method for forming polymer microspheres, United States Patent No. US 6,998,074 Feb. 14, 2006. 121
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