Development of terbinafine solid lipid nanoparticles as a topical delivery system.
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It was concluded that the application of ACP1-GM1 for 12 hours might have an efficacy comparable to that of Lamisil®, Once™ for 24 hours, which would resolve the practical problem of the longer administration period that is necessary for Lamisilsil® Once™.Abstract:
To resolve problems of long treatment durations and frequent administration of the antifungal agent terbinafine (TB), solid lipid nanoparticles (SLNs) with the ability to load lipophilic drugs and nanosize were developed. The SLNs were manufactured by a microemulsion technique in which glyceryl monostearate (GMS), glyceryl behenate (Compritol(®) 888; Gattefosse), and glyceryl palmitostearate (Precirol(®) ATO 5; Gattefosse) were used as the solid lipid phases, Tween(®) and Cremophor(®) series as the surfactants, and propylene glycol as the cosurfactant to construct ternary phase diagrams. The skin of nude mice was used as a barrier membrane, and penetration levels of TB of the designed formulations and a commercial product, Lamisil(®) Once™ (Novartis Pharmaceuticals), in the stratum corneum (SC), viable epidermis, and dermis were measured; particle sizes were determined as an indicator of stability. The optimal SLN system contained a 50% water phase. The addition of ethanol or etchants had no significant effect on enhancing the amount of TB that penetrated the skin layers, but it was enhanced by increasing the percentage of the lipid phase. Furthermore, the combination of GMS and Compritol(®) 888 was able to increase the stable amount of TB that penetrated all skin layers. For the ACP1-GM1 (4% lipid phase; Compritol(®) 888: GMS of 1:1) formulation, the amount of TB that penetrated the SC was similar to that of Lamisil(®) Once™, whereas the amount of TB of the dermis was higher than that of Lamisil(®) Once™ at 12 hours, and it was almost the same as that of Lamisil(®) Once™ at 24 hours. It was concluded that the application of ACP1-GM1 for 12 hours might have an efficacy comparable to that of Lamisil(®) Once™ for 24 hours, which would resolve the practical problem of the longer administration period that is necessary for Lamisil(®) Once™.read more
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SLN and NLC for topical, dermal, and transdermal drug delivery.
Eliana B. Souto,Eliana B. Souto,Iara Baldim,Iara Baldim,Wanderley Pereira de Oliveira,Rekha Rao,Nitesh Yadav,Francisco M. Gama,Sheefali Mahant +8 more
TL;DR: This review focuses on Solid lipid nanoparticles (SLN) and Nanostructured lipid carriers (NLC) for skin administration, which are composed of lipids that resemble those of the skin and sebum, which contribute to their enhanced biocompatibility, with limited toxicological risk.
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Nanostructured lipid carrier system for topical delivery of terbinafine hydrochloride
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New Formulation Strategies in Topical Antifungal Therapy
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References
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Solid lipid nanoparticles (SLN) for controlled drug delivery - a review of the state of the art.
TL;DR: Relevant issues for the introduction of SLN to the pharmaceutical market, such as status of excipients, toxicity/tolerability aspects and sterilization and long-term stability including industrial large scale production are discussed.
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Solid lipid nanoparticles (SLN) for controlled drug delivery – Drug release and release mechanism
TL;DR: The principle suitability of SLN as a prolonged release formulation for lipophilic drugs is demonstrated and tetracaine and prednisolone loaded SLN showed a distinctly prolonged release over a monitored period of 5 weeks.
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TL;DR: Sufficiently stable ultra-adaptable carriers, therefore, can ensure targeted drug delivery deep below the application site, and allow highly efficient and well-tolerated drug targeting into the skin proper by means of highly adaptable drug carriers.
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Lipid nanoparticles for improved topical application of drugs for skin diseases.
TL;DR: The dermal uptake from SLN and NLC to the one of alternative vehicle systems is compared and a special focus is upon the interactions of active ingredients and the lipid matrix as well as the quantification of dermal penetration.