Alenka Zvonar scite author profile

Low oral bioavailability as a consequence of low water solubility of drugs is a growing challenge to the development of new pharmaceutical products. One of the most popular approaches of oral bioavailability and solubility enhancement is the utilization of lipid-based drug delivery systems. Their use in product development is growing due to the versatility of pharmaceutical lipid excipients and drug formulations, and their compatibility with liquid, semi-solid, and solid dosage forms. Lipid formulations, such as self-emulsifying (SEDDS), self-microemulsifying SMEDDS) and self--nanoemulsifying drug delivery systems (SNEDDS) were explored in many studies as an efficient approach for improving the bioavailability and dissolution rate of poorly water-soluble drugs. One of the greatest advantages of incorporating poorly soluble drugs into such formulations is their spontaneous emulsification and formation of an emulsion, microemulsion or nanoemulsion in aqueous media. This review article focuses on the following topics. First, it presents a classification overview of lipid-based drug delivery systems and mechanisms involved in improving the solubility and bioavailability of poorly water-soluble drugs. Second, the article reviews components of lipid-based drug delivery systems for oral use with their characteristics. Third, it brings a detailed description of SEDDS, SMEDDS and SNEDDS, which are very often misused in literature, with special emphasis on the comparison between microemulsions and nanoemulsions.Keywords: lipid-based drug delivery systems (LBDDS), self-emulsifying drug delivery systems (SEDDS), self--microemulsifying drug delivery systems (SMEDDS), self-nanoemulsifying drug delivery systems (SNEDDS), microemulsions, nanoemulsions

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Resveratrol loaded liposomes produced by different techniques

Isailović

Kostić

Zvonar

et al. 2013

Innovative Food Science & Emerging Technologies

163

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Microencapsulation of self-microemulsifying system: Improving solubility and permeability of furosemide

Zvonar

Berginc

Kristl

et al. 2010

International Journal of Pharmaceutics

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Mixed lipid phase SMEDDS as an innovative approach to enhance resveratrol solubility

Bolko

Zvonar

Gašperlin

2013

Drug Development and Industrial Pharmacy

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Temperature-Sensitive Microemulsion Gel: An Effective Topical Delivery System for Simultaneous Delivery of Vitamins C and E

et al. 2009

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Abstract. Microemulsions (ME)-nanostructured systems composed of water, oil, and surfactants-have frequently been used in attempts to increase cutaneous drug delivery. The primary objective addressed in this work has been the development of temperature-sensitive microemulsion gel (called gel-like ME), as an effective and safe delivery system suitable for simultaneous topical application of a hydrophilic vitamin C and a lipophilic vitamin E. By changing water content of liquid o/w ME (o/w ME), a gel-like ME with temperature-sensitive rheological properties was formed. The temperature-driven changes in its microstructure were confirmed by rotational rheometry, viscosity measurements, and droplet size determination. The release studies have shown that the vitamins' release at skin temperature from gellike ME were comparable to those from o/w ME and were much faster and more complete than from o/w ME conventionally thickened with polymer (o/w ME carbomer). According to effectiveness in skin delivery of both vitamins, o/w ME was found the most appropriate, followed by gel-like ME and by o/w ME carbomer, indicating that no simple correlation between vitamins release and skin absorption could be found. The cytotoxicity studies revealed good cell viability after exposure to ME and confirmed all tested microemulsions as nonirritant.

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Alenka Zvonar

Lipid-based systems as a promising approach for enhancing the bioavailability of poorly water-soluble drugs

Resveratrol loaded liposomes produced by different techniques

Microencapsulation of self-microemulsifying system: Improving solubility and permeability of furosemide

Mixed lipid phase SMEDDS as an innovative approach to enhance resveratrol solubility

Temperature-Sensitive Microemulsion Gel: An Effective Topical Delivery System for Simultaneous Delivery of Vitamins C and E

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