The aim of this work was to evaluate silica nanocomposites as topical drug delivery systems for the model drug, caffeine. Preparation, characterization, and skin permeation properties of caffeine-silica nanocomposites are described. Caffeine was loaded into the nanocomposites by grinding the drug with mesoporous silica in a ball mill up to 10 h and the efficiency of the process was studied by XRPD. Formulations were characterized by several methods that include FTIR, XRPD, SEM and TEM. The successful loading of caffeine was demonstrated by XRPD and FTIR. Morphology was studied by SEM that showed particle size reduction while TEM demonstrated formation of both core-shell and multilayered caffeine-silica structures. Solid-state NMR spectra excluded chemical interactions between caffeine and silica matrix, thus confirming that no solid state reactions occurred during the grinding process. Influence of drug inclusion in silica nanocomposite on the in vitro caffeine diffusion into and through the skin was investigated in comparison with a caffeine gel formulation (reference), using newborn pig skin and vertical Franz diffusion cells. Results from the in vitro skin permeation experiments showed that inclusion into the nanocomposite reduced and delayed caffeine permeation from the silica nanocomposite in comparison with the reference, independently from the amount of the tested formulation. © 2012 Informa Healthcare USA, Inc.

Drug silica nanocomposite: Preparation, characterization and skin permeation studies

Pilloni M.
Membro del Collaboration Group
;
Ennas G.
Membro del Collaboration Group
;
Casu M.
Membro del Collaboration Group
;
Fadda A. M.
Membro del Collaboration Group
;
Marongiu F.
Membro del Collaboration Group
;
Scano A.
Membro del Collaboration Group
;
Valenti D.
Membro del Collaboration Group
;
Sinico C.
Membro del Collaboration Group
2013-01-01

Abstract

The aim of this work was to evaluate silica nanocomposites as topical drug delivery systems for the model drug, caffeine. Preparation, characterization, and skin permeation properties of caffeine-silica nanocomposites are described. Caffeine was loaded into the nanocomposites by grinding the drug with mesoporous silica in a ball mill up to 10 h and the efficiency of the process was studied by XRPD. Formulations were characterized by several methods that include FTIR, XRPD, SEM and TEM. The successful loading of caffeine was demonstrated by XRPD and FTIR. Morphology was studied by SEM that showed particle size reduction while TEM demonstrated formation of both core-shell and multilayered caffeine-silica structures. Solid-state NMR spectra excluded chemical interactions between caffeine and silica matrix, thus confirming that no solid state reactions occurred during the grinding process. Influence of drug inclusion in silica nanocomposite on the in vitro caffeine diffusion into and through the skin was investigated in comparison with a caffeine gel formulation (reference), using newborn pig skin and vertical Franz diffusion cells. Results from the in vitro skin permeation experiments showed that inclusion into the nanocomposite reduced and delayed caffeine permeation from the silica nanocomposite in comparison with the reference, independently from the amount of the tested formulation. © 2012 Informa Healthcare USA, Inc.
2013
Ball milling
Caffeine
Drug release
Nanocomposite
Silica matrix
Animals
Animals, Newborn
Chemistry, Pharmaceutical
Nanocomposites
Organ Culture Techniques
Silicon Dioxide
Skin
Skin Absorption
Swine
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11584/345443
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