Giorgia Giusy Tirendi scite author profile

Caffeine is an interesting compound showing anticancer and protective effects upon topical administration, although its penetration through the skin is compromised by its hydrophilicity. Materials and methods: SLN-CAF were formulated by using a modification of the quasi-emulsion solvent diffusion technique (QESD) and characterized by PCS and DSC analyses. In vitro percutaneous absorption studies were effected using excised human skin membranes (i.e. Stratum Corneum Epidermis or SCE).Results: SLN-CAF were in a nanometric range (182.6 ± 8.4 nm) and showed an interesting payload value (75% ± 1.1). DSC studies suggest the presence of a well-defined system and the successful drug incorporation. Furthermore, SLN-CAF generated a significantly faster permeation than a control formulation over 24 h of monitoring. Discussion and conclusions: SLN-CAF were characterized by valid dimensions and a good encapsulation efficiency, although the active to incorporate showed a hydrophilic character. This result confirms the suitability of the formulation strategy employed in the present work. Furthermore, the in vitro evidence outline the key role of lipid nanoparticles in enhancing caffeine permeation through the skin.

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Modern drug delivery strategies applied to natural active compounds

Puglia

Lauro

Tirendi

et al. 2016

Expert Opinion on Drug Delivery

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Colloidal drug delivery systems (CDDSs) are innovative carriers that have been studied in pharmaceutical field from many years to overcome unfavorable physical and chemical features of synthetic drugs. Recently the use of CDDS as carriers for phytochemicals has seen an exponential increase which, in some cases, has led to the rediscovery of ancient and forgotten natural molecules. Area covered: This article focuses on the main features of CDDS, particularly micro- and nanoemulsions, vesicular carriers and micro- and nanoparticles, loaded with natural active compounds. A detailed review of the literature is presented, introducing the importance of these systems in terms of their capability to optimize the stability of phytochemicals, their absorption through biological membranes and their bioavailability. Expert opinion: The delivery of phytochemicals is problematic due to poor solubility, poor permeability, low bioavailability, instability in biological milieu and extensive first-pass metabolism. Global research efforts investigating nanotechnology have attempted to overcome these limitations rediscovering and, in some cases, 'discovering ex novo' unexpected virtues and benefits associated to these compounds. The 'nanotechnological approach' can definitely enhance the pharmacokinetics and therapeutic index of natural active compounds and improve their performance in therapy.

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Emerging Role of Colloidal Drug Delivery Systems (CDDS) in NSAID Topical Administration

Puglia

Tirendi²,

Bonina³

2013

CMC

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NSAIDs are the most commonly prescribed category of drugs for the treatment of musculoskeletal pain and inflammation associated with many conditions. Topical administration of these drugs is always the best choice since adverse effects occur commonly with systemic NSAID therapy. Colloidal drug delivery systems (CDDS) are interesting systems, which are able to improve the duration of drug residence in the skin and to allow an achievable drug sustained and controlled release compared to conventional topical formulations. This review focuses on micro and nanoemulsions, vesicular carriers and nanoparticles as novel high efficiency delivery systems of NSAIDs in topical applications.

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