Annalisa H.S. Stancampiano scite author profile

Annalisa H.S. Stancampiano

5Publications

42Citation Statements Received

60Citation Statements Given

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Affiliations

University of Catania

Publications

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In vitro skin permeation of sunscreen agents from O/W emulsions

Montenegro

Carbone

Paolino

et al. 2008

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The effects of different emulsifiers on the in vitro permeation through human skin of two sunscreen agents [octylmethoxycinnamate (OMC) and butylmethoxydibenzoylmethane (BMBM)] were investigated from O/W emulsions. The test formulations were prepared using the same oil and aqueous phase ingredients and the following emulsifier and coemulsifier systems: Emulgade SE((R)) (ceteareth-12 and ceteareth-20 and cetearyl alcohol and cetyl palmitate) and glycerylmonostearate (emulsion 1); Brij 72((R)) (steareth-2), Brij 721((R)) (steareth-21) and cetearyl alcohol (emulsion 2); Phytocream((R)) (potassium palmitoyl-hydrolysed wheat protein and glyceryl stearate and cetearyl alcohol) and glycerylmonostearate (emulsion 3); Montanov 68((R)) (cetearyl glucoside and cetearyl alcohol) (emulsion 4); Xalifin-15((R)) (C(15-20) acid PEG-8 ester) and cetearyl alcohol (emulsion 5). The cumulative amount of OMC that permeated in vitro through human skin after 22 h from the formulations being tested decreased in the order 3 > 1 congruent with 4 > 5 > 2 and was about nine-fold higher from emulsion 3 compared with that from emulsion 2. As regards BMBM, no significant difference was observed as regards its skin permeation from emulsions 1, 3, 4 and 5, whereas formulation 2 allowed significantly lower amounts of BMBM to permeate the skin. In vitro release experiments of OMC and BMBM from emulsions 1-6 through cellulose acetate membranes showed that only emulsions 4 and 5 provided pseudo-first-order release rates only for OMC. The results of this study suggest that the type of emulsifying systems used to prepare an O/W emulsion may strongly affect sunscreen skin permeation from these formulations. Therefore, the vehicle effects should be carefully considered in the formulation of sunscreen products.

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Technological and Biological Characterization of Idebenone-Loaded Solid Lipid Nanoparticles Prepared by a Modified Solvent Injection Technique

Stancampiano¹,

Acquaviva²,

Campisi³

et al. 2006

j biomed nanotechnol

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Effect of Lipophilicity of Dispersed Drugs on the Physicochemical and Technological Properties of Solid Lipid Nanoparticles

Stancampiano¹,

Puglisi²,

Pignatello³

2008

TODDJ

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A series of aliphatic esters of the NSAID naproxen (NAP) were synthesised and encapsulated in solid lipid nanoparticles (SLN) to evaluate the influence of lipophilicity on drug loading and release, as well as physicochemical properties and stability of SLN. The lipophilicity of esters mainly showed to influence their affinity for the solid lipid matrix, modifying the drug release profile compared to the parent drug, whereas drug encapsulation efficiency and the technological properties and stability of SLN were not affected. After storage at room temperature the in vitro release profiles of esters changed with respect to freshly prepared systems, depending on the lipophilicity of the dispersed derivative. In particular, the SLN containing the medium-chain hexyl and octyl esters showed a 70-80% increase of drug release after storage; SLN loaded with NAP or the lower ethyl and butyl esters did not show significant changes in the drug release rate. Such findings reveal that the affinity of NAP esters for the lipid network of the nanoparticles is strongly dependent on their lipophilicity and an excessive increase of the latter negatively influences the allocation and retention on these compounds in the nanoparticles.

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Nanostructured Lipid Carriers (NLC) for the Topical Delivery of Lutein

Paolino¹,

Stancampiano²,

Cilurzo³

et al. 2011

DDL

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Dexamethasone sodium phosphate-loaded Chitosan based delivery systems for buccal application

Pignatello

Stancampiano

Ventura

et al. 2007

Journal of Drug Targeting

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Chitosan (CH) was used as a biocompatible and bioadhesive polymer material to prepare solid dispersions as well as hydrogels loaded with dexamethasone sodium phosphate (DSP), a steroidal anti-inflammatory agent clinically used for treatment of different mouth diseases. Binary solid dispersions at various drug-to-polymer weight ratios were prepared by freeze-drying; their direct compression gave tablets which were characterized for the swelling behaviour and drug release in vitro. Similarly, DSP-loaded hydrogels composed of CH and glycerine were prepared and characterized. CH and DSP showed a good physical compatibility. A slow and prolonged release of the drug was observed in vitro from both kinds of systems. The swelling properties of the polymer seemed to be the main parameter affecting the drug release profile from both tablets and hydrogels at the pH value of mouth. In vivo buccal application of both the systems allowed to obtain a prolonged release of DSP, as compared with a glycerine solution of the drug. From the in vitro swelling studies and in vivo test, the 2:1 CH-DSP solid dispersion in particular can be designated for further investigation.

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