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Ivana Jovanovic MT.pdf (7089 KB) - Institut tehničkih nauka SANU

Ivana Jovanovic MT.pdf (7089 KB) - Institut tehničkih nauka SANU Ivana Jovanovic MT.pdf (7089 KB) - Institut tehničkih nauka SANU

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Ivana Jovanović Magistarska teza [89] J. W. Nah, Y. I. Jeong, C. S. Cho, Clonazepam release from core-shell type nanoparticles composed of poly(β-benzyl L-glutamate) as the hydrophobic part and poly(ethylene oxide) as the hydrophilic part, Journal of Polymer Science. Part B: Polymer Physics 36 (1998) 415- 423. [90] S. Y. Kim, I. G. Shin, Y. M. Lee, Amphiphilic diblock copolymeric nanospheres composed of methoxy poly(ethylene glycol) and glycolide: properties, cytotoxicity and drug release behavior, Biomaterials 20 (1999) 1033-1042. [91] Y. Ataman-Onal, S. Munier, A. Ganée, C. Terrat, P.-Y. Durand, N. Battail, F. Martinon, R. Le Grand, M.-H. Charles, T. Delair, B. Verrier, Surfactant-free anionic PLA nanoparticles coated with HIV-1 p24 protein induced enhanced cellular and humoral immune responses in various animal models, Journal of Controlled Release 112 (2006) 175-185. [92] H. Wu, Y. Wan, X. Cao, Q. Wu, Interlocked chitosan/poly(DL-lactide) blends, Materials Letters 62 (2006) 330-334. [93] F.-J. Wang, C.-H. Wang, Etanidazol-loaded microspheres fabricated by spray-drying different poly(lactide/glycolide) polymers: effects on microsphere properties, Journal of Biomaterials Science: Polymer Edition 14 (2003) 157-183. [94] www.cd-adapco.com/press_room/dynamics/22/images/nizo1.jpg [95] R. T. Liggins, H. M. Burt, Paclitaxel loaded poly(l-lactic acid) PLLA microspheres II. The effect of processing parameters on microsphere morphology and drug release kinetics, International Journal of Pharmaceutics 281 (2004) 103-106. [96] R. Dinarvand, S. H. Moghadam, L. Mohammadyari-Fard, F. Atyabi, Preparation of biodegradable microspheres and matrix devices containing naltrexone, AAPS PharmSciTech 4 (2003) article 34. [97] T. W. Chung, Y. Y. Huang, Y. Z. Liu, Effects of the rate of solvent evaporation on the characteristics of drug loaded PLLA and PDLLA microspheres, International Journal of Pharmaceutics 212 (2001) 161-169. [98] H. Murakami, M. Kobayashi, H. Takeuchi, Y. Kawashima, Further application of modified spontaneous emulsification solvent diffusion method to various types of PLGA and PLA polymers for preparation of nanoparticles, Powder Technology 107 (2000) 137-143. [99] S. Hirsjärvi, L. Peltonen, J. Hirvonen, Layer-by-layer polyelectrolyte coating of low molecular weight poly(lactic acid) nanoparticles, Colloids and Surfaces B: Biointerfaces 49 (2006) 93-99. [100] L. Peltonen, P. Koistinen, M. Karjalainen, A. Häkkinen, J. Hirvonen, The effect of cosolvents on the formulation of nanoparticles from low-molecular-weight poly(l)lactide, AAPS PharmSciTech 3 (2002) Article 32. [101] J. W. Kostanski, B. C. Thanoo, P. P. DeLuca, Preparation, characterization, and in vitro evaluation of 1- and 4-month controlled release Orntide PLA and PLGA microspheres, Pharmaceutical Development and Technology 5 (2000) 585-596. 126

Ivana Jovanović Magistarska teza [102] U. Bilati, E. Allémann, E. Doekler, Strategic approaches for overcoming peptide and protein instability within biodegradable nano- and microparticles, European Journal of Pharmaceutics and Biopharmaceutics 59 (2005) 375-388. [103] M. F. Zambaux, F. Bonneaux, R. Gef, E. Dellacherie, C. Vigneron, Preparation and characterization of protein C-loaded PLA nanoparticles, Journal of Controlled Release 60 (1999) 179-188. [104] K. F. Griffin, J. E. Eyles, I. D. Spiers, H. O. Alpar, E. D. Williamson, Protection against plague following immunisation with microencapsulated V antigen is reduced by co-encapsulation with IFN-γ or IL-4, but not IL-6, Vaccine 20 (2002) 3650-3657. [105] S. Avivi, A. Gedanken, S-S bonds are not required for the sonochemical formation of proteinaceous microspheres: the case of streptavidin, Biochemical Journal 366 (2002) 705-707. [106] www.ijus.com/volume3/edition5/section1.html [107] W. Jiang, S. P. Schwendeman, Stabilization and controlled release of bovine serum albumin encapsulated in poly(D,L-lactide) and poly(ethylene glycol) microsphere blends, Pharmaceutical Research 18 (2001) 878-885. [108] X. Li, Y. Zhang, R. Yan, W. Jia, M. Yuan, X. Deng, Z. Huang, Influence of process parameters on the protein stability encapsulated in poly-DL-lactide-poly(ethylene glycol) microspheres, Journal of Controlled Release 68 (2000) 41-52. [109] Y. Y. Yang, T. S. Chung, X. L. Bai, W. K. Chan, Effect of preparation conditions on morphology and release profiles of biodegradable polymeric microspheres containing protein fabricated by double-emulsion method, Chemical Engineering Science 55 (2000) 2223-2236. [110] A. Basarkar, D. Devineni, R. Palaniappan, J. Singh, Preparation, characterization, cytotoxicity and transfection efficiency of poly(DL-lactide-co-glycolide) and poly(DL-lactic acid) cationic nanoparticles for controlled delivery of plasmid DNA, International Journal of Pharmaceutics 343 (2007) 247-254. [111] M. Yasuniwa, K. Sakamo, Y. Ono, W. Kawahara, Melting behavior of poly(L-lactic acid): X-ray and DSC analyses of the melting process, Polymer 49 (2008) 1943-1951. [112] J. Zhang, H. Sato, H. Tsuji, I. Noda, Y. Ozaki, Differences in the CH ... 3 O=C interactions among poly(l-lactide), poly(L-lactide)/poly(D-lactide) stereocomplex, and poly(3-Hydroxybutyrate) studied by infrared spectroscopy, Journal of Molecular Structure 735-736 (2005) 249-257. [113] Z. Vujčić, Eksperimentalna biohemija-praktikum, Hemijski fakultet, Beograd 2002. [114] S. Hyvönen, L. Peltonen, M. Karjalainen, J. Hirvonen, Effect of nanoprecipitation on the physicochemical properties of low molecular weight poly(L-lactic acid) nanoparticles loaded with salbutamol sulphate and beclomethasone dipropionate, International Journal of Pharmaceutics 295 (2005) 269-281. [115] M. Asano, H. Fukuzaki, M. Yoshida, M. Kumakura, T. Mashimo, H. Yuasa, K. Imai, H. Yamanaka, U. Kawaharada, K. Suzuki, In vivo controlled release of a luteinizing hormone-releasing hormone agonist from poly(DL-lactic acid) formulations of varying degradation pattern, International Journal of Pharmaceutics 67 (1991) 67-77. 127

<strong>Ivana</strong> Jovanović<br />

Magistarska teza<br />

[102] U. Bilati, E. Allémann, E. Doekler, Strategic approaches for overcoming peptide and<br />

protein instability within biodegradable nano- and microparticles, European Journal of<br />

Pharmaceutics and Biopharmaceutics 59 (2005) 375-388.<br />

[103] M. F. Zambaux, F. Bonneaux, R. Gef, E. Dellacherie, C. Vigneron, Preparation and<br />

characterization of protein C-loaded PLA nanoparticles, Journal of Controlled Release 60 (1999)<br />

179-188.<br />

[104] K. F. Griffin, J. E. Eyles, I. D. Spiers, H. O. Alpar, E. D. Williamson, Protection against<br />

plague following immunisation with microencapsulated V antigen is reduced by co-encapsulation<br />

with IFN-γ or IL-4, but not IL-6, Vaccine 20 (2002) 3650-3657.<br />

[105] S. Avivi, A. Gedanken, S-S bonds are not required for the sonochemical formation of<br />

proteinaceous microspheres: the case of streptavidin, Biochemical Journal 366 (2002) 705-707.<br />

[106] www.ijus.com/volume3/edition5/section1.html<br />

[107] W. Jiang, S. P. Schwendeman, Stabilization and controlled release of bovine serum<br />

albumin encapsulated in poly(D,L-lactide) and poly(ethylene glycol) microsphere blends,<br />

Pharmaceutical Research 18 (2001) 878-885.<br />

[108] X. Li, Y. Zhang, R. Yan, W. Jia, M. Yuan, X. Deng, Z. Huang, Influence of process<br />

parameters on the protein stability encapsulated in poly-DL-lactide-poly(ethylene glycol)<br />

microspheres, Journal of Controlled Release 68 (2000) 41-52.<br />

[109] Y. Y. Yang, T. S. Chung, X. L. Bai, W. K. Chan, Effect of preparation conditions on<br />

morphology and release profiles of biodegradable polymeric microspheres containing protein<br />

fabricated by double-emulsion method, Chemical Engineering Science 55 (2000) 2223-2236.<br />

[110] A. Basarkar, D. Devineni, R. Palaniappan, J. Singh, Preparation, characterization,<br />

cytotoxicity and transfection efficiency of poly(DL-lactide-co-glycolide) and poly(DL-lactic acid)<br />

cationic nanoparticles for controlled delivery of plasmid DNA, International Journal of Pharmaceutics<br />

343 (2007) 247-254.<br />

[111] M. Yasuniwa, K. Sakamo, Y. Ono, W. Kawahara, Melting behavior of poly(L-lactic<br />

acid): X-ray and DSC analyses of the melting process, Polymer 49 (2008) 1943-1951.<br />

[112] J. Zhang, H. Sato, H. Tsuji, I. Noda, Y. Ozaki, Differences in the CH ... 3 O=C interactions<br />

among poly(l-lactide), poly(L-lactide)/poly(D-lactide) stereocomplex, and poly(3-Hydroxybutyrate)<br />

studied by infrared spectroscopy, Journal of Molecular Structure 735-736 (2005) 249-257.<br />

[113] Z. Vujčić, Eksperimentalna biohemija-praktikum, Hemijski fakultet, Beograd 2002.<br />

[114] S. Hyvönen, L. Peltonen, M. Karjalainen, J. Hirvonen, Effect of nanoprecipitation on<br />

the physicochemical properties of low molecular weight poly(L-lactic acid) nanoparticles loaded with<br />

salbutamol sulphate and beclomethasone dipropionate, International Journal of Pharmaceutics 295<br />

(2005) 269-281.<br />

[115] M. Asano, H. Fukuzaki, M. Yoshida, M. Kumakura, T. Mashimo, H. Yuasa, K. Imai, H.<br />

Yamanaka, U. Kawaharada, K. Suzuki, In vivo controlled release of a luteinizing hormone-releasing<br />

hormone agonist from poly(DL-lactic acid) formulations of varying degradation pattern, International<br />

Journal of Pharmaceutics 67 (1991) 67-77.<br />

127

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