| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1522111 | Materials Chemistry and Physics | 2014 | 7 Pages |
•Importance of drug carrier surface chemistry on drug release.•Chemical functionalized titania nanotubes for in vitro drug delivery.•Release kinetics modulated by carrier surface chemistry, pH of suspending medium.
Surface chemistry and the intrinsic porous architectures of porous substrates play a major role in the design of drug delivery systems. An interesting example is the drug elution characteristic from hydrothermally synthesised titania nanotubes with tunable surface chemistry. The variation in release rates of Ibuprofen (IBU) is largely influenced by the nature of the functional groups on titania nanotubes and pH of suspending medium. To elucidate the extent of interaction between the encapsulated IBU and the functional groups on titania nanotubes, the release profiles have been modelled with an empirical Hill equation. The analysis aided in establishing a probable mechanism for the release of IBU from the titania nanotubes. The study of controlled drug release from TiO2 has wider implication in the context of biomedical engineering.
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