References
- Alma JK, Gerard HME, Jeroen K, Sebastian AJZ, Jacob D, Jan F. Cross-linking and characterization of gelatin matrices for biomedical applications. J Biomater Sci Polymer Ed 1999; 11: 225–243
- Bajpai AK, Choubey J. design of gelatin nanoparticles as swelling controlled delivery system for chloroquine phosphate. J Mater Sci-Mater M 2006; 17: 345–358
- Belikov VG, Kuregyan AG, Ismailova GK. Standardization of magnetite. Pharm Chem J 2002; 36: 333–336
- Bhattarai SR, Remant RKC, Aryal S, Khil MS, Kim HK. N-Acylated chitosan stabilized iron oxide nanoparticles as a novel nano-matrix and ceramic modification. Carbohyd Polym 2007; 69: 467–477
- Brewer HS, Anthireya JS, Lappi SE. Detection of DNA hybridization of gold surfaces by polarization modulation infrared reflection absorption spectroscopy. Langmuir 2002; 18: 4460–4464
- Chittur KK. FTIR/ATR for protein adsorption to biomaterial surfaces. Biomaterials 1998; 19: 357–369
- Claude FA, Michael JG. Gelatin behavior in dilute aqueous solution: Designing a nanoparticulate formulation. J Pharm Pharmacol 1999; 51: 643–649
- Coester CJ, Langer K, Briesen HV, Kreuter J. Gelatin nanoparticles by two step desolvation—a new preparation method, surface modifications and cell uptake. J Microencapsulation 2000; 17: 187–193
- Cornell RM, Schertmann U. The iron oxides: Structure, properties, reactions, occurrence and uses. VCH Publishers, Weinheim 1996
- Desai MP, Labhasetwar V, Walter E, Levy RJ, Amidon GL. The mechanism of uptake of biodegradable microparticles in Caco-2 cells is size dependent. Pharm Res 1997; 14: 1568–1573
- Gupta AK, Gupta M. Synthesis and surface engineering of iron oxide nanoparticles for biomedical applications. Biomaterials 2005; 26: 3995–4021
- Gupta PK, Hung CT. Magnetically controlled targeted micro-carrier systems. Life Sci 1989; 44: 175–186
- Hamley IW. Nanotechnology with soft materials. Angew Chem Int Ed 2003; 42: 1692–1712
- Jacques L. Stability of suspensions of solid particles of proteins and protective action of colloids. J Gen Physiol 1992; 5: 479–504
- Klaus W. Superparamagnetic latex via inverse emulsion polymerization. J Colloid Interface Sci 2001; 241: 366–377
- Leo E, Cameroni R, Forni F. Dynamic dialysis for the drug release evaluation from doxorubincin-gelatin nanoparticle conjugates. Int J Pharm 1999; 180: 23–30
- Leong KW, Mao HQ, Truong-Le VL, Roy K, Walsh SM, August JT. dNA-polycation nanospheres as non-viral gene delivery vehicles. J Control Release 1998; 53: 183–193
- Leslie-Pelecky DL, Rieke RD. Magnetic properties of nanostructured material. Chem Mater 1996; 8: 1770–1783
- Maria GC, Claudia C, Zhouhai Z. Gelatin nanoparticles produced by a simple W/O emulsion as delivery system for methotreaxate. J Mater Sci Mater Med 2002; 13: 523–526
- Muniyandy S, Bhaskar K, Maharajan G, Pillai KS. Ultrasonically controlled release and targeted delivery of diclofenac sodium via gelatin magnetic microspheres. Int J Pharm 2004; 283: 71–82
- Rana S, Gallo A, Srivastava RS, Misra RDK. On the suitability of nanocrystalline ferrites as a magnetic carrier for drug delivery: Functionalization, conjugation and drug release kinetics. Acta Biomater 2007; 3: 233–242
- Rawat J, Rana S, Sorensson MM, Misra RDK. Anti-microbial activity of doped anatase titania-caoted nickel. Mater Sci Technol 2007; 23: 97–102
- Saravanan M, Bhaskar K, Narayanan VSN, Maharajan G, Pillai SK. Diclofenace sodium loaded gelatin magnetic microspheres for intra-arterial administration: Formulation, characterization and in vitro release studies. Boll Chim Farm 2003; 142: 347–351
- Shi Y, Chow GM. Carboxyl group (-CO2H) functionalized ferrimagnetic iron oxide nanoparticles for potential bio-applications. J Mater Chem 2004; 14: 2781–2786
- Shirzad A, Huang Y, Chen H, McQuarrie S, Abrams D, Roa W, Finlay WH, Miller GG, Lobenberg R. Optimization of two-step desolvation method for preparing gelatin nanoparticles and cell uptake studies in 143B osteosarcoma cancer cells. J Pharm Sci 2006; 9: 124–132
- Veis A. The macromolecular chemistry of gelatin. Academic Press, New York 1964
- Weber C, Coester C, Kreuter J, Langer K. Desolvation process and surface characterization of protein nanoparticles. Int J Pharm 2000; 194: 91–102
- Yen FS, Chen WC, Yang JM, Hong CT. Crystallite size variations of nanosized Fe2O3 powders during γ- to α-phase. Nano Lett 2002; 2: 245–252
- Zauner W, Farrow NA, Haines AMR. In vitro uptake of polystyrene microspheres: Effect of particle size, cell line and cell density. J Control Release 2001; 71: 39–51
- Zhang JL, Srivastava RS, Misra RDK. Core-shell magnetite nanoparticles surface encapsulated with smart stimli-responsive polymer: Synthesis, characterization, and LCST of viable drug-targeting delivery system. Langmuir 2007; 23: 6342–6351
- Zillies J, Coester C. Evaluating gelatin based nanoparticles as a carrier system for double stranded oligonucleotides. J Pharm Pharmaceut Sci 2004; 7: 17–21