Release dynamics of ciprofloxacin from swellable nanocarriers of poly(2-hydroxyethyl methacrylate): an in vitro study

References 

1. Mishra B, Patel BB, Tiwari S. Colloidal nanocarriers: a review on formulation technology, types and applications toward targeted drug delivery. Nanomedicine: Nanomed Biol Med. 2010;6:9–24
2. Couvreur P, Vauthier C. Nanotechnology: intelligent design to treat complex disease. Pharm Res. 2006;23:1417–1450
   • MEDLINE
   • CrossRef
3. Parashar UK, Saxena PS. Srivastava Anchal. Role of nanomaterials in biotechnology. Digest J Nanomater Biostruct. 2008;3:81–87
4. Lee HD, Kang Joong IK. Drug delivery system using biodegradable nanoparticles. Kona. 2006;24:159–166
5. Kaparissides C, Alexandridou S, Kotti K, Chaitidou S. Recent advances in novel drug delivery systems. 2006;2: pp. 1-11. doi:10.2240/azonano0111.
6. Wang AZ, Gu F, Zhang L, Chan JM, Radovic-Moreno A, Farokhzad OC, et al. Biofunctionalized targeted nanoparticles for therapeutic applications. Expert Opin Biol Ther. 2008;8:1063–1070
   • CrossRef
7. Bhavane R, Karathanasis E, Annapragada AV. Triggered release of ciprofloxacin from nanostructured agglomerated vesicles. Int J Nanomed. 2007;2:407–418
8. Rosemary MJ, MacLaren I, Pradeep T. Investigations of the antibacterial properties of ciprofloxacin@SiO₂. Langmuir. 2006;22:10125–10129
   • MEDLINE
   • CrossRef
9. Tamayo M, Santiso R, Gosalvez J, Bou G, Fernandez JL. Rapid assessment of the effect of ciprofloxacin on chromosomal DNA from Escherichia coli using an in situ DNA fragmentation assay. BMC Microbiol. 2009;9:69–80
   • CrossRef
10. Marzo A, Bal Do. Liquid chromatography as an analytical tool for selected antibiotic classes: a reappraisal addressed to pharmacokinetic applications. J Chromatogr A. 2002;B12:17–34
11. Bajpai AK. Adsorption of a blood protein on to hydrophilic sponges based on poly(2-hydroxyethyl methacrylate). J Mater Sci Mater Med. 2004;15:583–592
    • MEDLINE
    • CrossRef
12. Kaparissides C, Alexandridou S, Kammona O, Dini E. Polymeric nano- and microparticles for controlled release applications. In: Workshop of CPERI. Department of Chemical Engineering and Chemical Process Engineering Research Institute, Aristotle University of Thessaloniki, Thessaloniki, Greece.. 2002;
13. Tandon V , Bhagavatula SK, Nelson WC, Kirby BJ. Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 1. The origins of charge. Electrophoresis. 2008;29:1092–1101
    • CrossRef
14. Jahanshahi M, Babaei Z. Protein nanoparticle: a unique system as drug delivery vehicles. Afr J Biotech. 2008;7:4926–4934
15. Kumari K, Kundu PP. Studies on in vitro release of CPM from semi-interpenetrating polymer network (IPN) composed of chitosan and glutamic acid. Bull Mater Sci. 2008;31:159–167
16. Bundela H, Bajpai AK. Designing of hydroxyapatite-gelatin based porous matrix as bone substitute: correlation with biocompatibility aspects. Express Polym Lett. 2008;2:201–213
17. Vanneaux V, Proust V, Cheron M, Madeleine , Odile Corriol , Francois Gimenez , et al. A physical and chemical stability study of amphotericin B lipid complexes (Abelcet) Besnard after dilution in dextrose 5%. EJHP-S. 2007;13:10–13
18. Zhang L, Kosaraju SL. Biopolymeric delivery system for controlled release of polyphenolic antioxidants. Eur Polym J. 2007;43:2956–2966
19. Li-Fang F, Wei He, Yong-Zhene C, Bai X, Qing Du, De-Ying C, et al. Studies of chitosan/Kollicoat SR 30D film-coated tablets for colonic drug delivery. Int J Pharm. 2009;375:8–15
    • CrossRef
20. Prado HJ, Matulewicz MC, Bonelli PR, Cukierman AL. Preparation and characterization of a novel starch-based interpolyelectrolyte complex as matrix for controlled drug release. Carbohydrate Res. 2009;344:1325–1331
21. Mc Gann MJ, Higginbotham CL, Geever LM, Nugent MJD. The synthesis of novel pH-sensitive poly(vinyl alcohol) composite hydrogels using a freeze/thaw process for biomedical applications. Int J Pharm. 2009;372:154–161
    • CrossRef
22. Mahkam M, Mohammadia R, Siadat SOR. Synthesis and evaluation of biocompatible pH-sensitive hydrogels as colon-specific drug delivery systems. J Chin Chem Soc. 2006;53:727–733
23. Jahanshahi M. Molecular nanotechnology and nanobiotechnology. Babolsar, Iran: Academic University (Mazandaran) publications; 2007;
24. Medina C, Santos-Martinez MJ, Radomski A, Corrigan OI, Radomski MW. Nanoparticles: pharmacological and toxicological significance. Br J Pharmacol. 2007;150:552–558
    • MEDLINE
    • CrossRef
25. Bajpai AK, Choubey J. In vitro release dynamics of an anticancer drug from swellable gelatin nanoparticles. J Appl Polym Sci. 2006;101:2320–2332
26. Bajpai AK, Bhanu S. Dynamics of controlled release of heparin from swellable cross-linked starch microspheres. J Mater Sci Mater Med. 2007;18:1613–1621
    • CrossRef
27. Bajpai AK, Mishra A. Preparation and characterization of tetracycline-loaded interpenetrating polymer networks of carboxymethyl cellulose and poly(acrylic acid): water sorption and drug release study. Polym Int. 2005;54:1347–1356
28. Bajpai AK, Saini R. Preparation and characterization of spongy cryogels of poly(vinyl alcohol)-casein system: water sorption and blood compatibility study. Polym Int. 2005;54:796–806