The increasing need for drug delivery systems that improve specificity and activity and at the same time reduce toxicity to ensure maximum treatment safety has led to the development of a great variety of drug vectors. Carriers based on soft matter have particularly interesting characteristics. Herein we present the current standing of the research in this area, and focus on two main families, namely matrix systems and vesicles. We outline the structure, properties, and potential applications of these vectors, and discuss their main advantages and drawbacks in their synthesis.
Dermal/transdermal drug delivery continues to grow in importance as a means of enhancing treatment activity while reducing toxicity by avoiding the systemic absorption of the drug.
One of the most important solvent physical parameters for aggregation is the cohesive energy density (CED), for it gives an idea of the structured state of the solvent. Nevertheless, our studies on the behavior of catanionic amphiphiles in nonaqueous solvents demonstrated that in order to obtain objects the dielectric constant of the solvent was also a critical parameter, as a too high value of the dielectric constant caused the dissociation of the catanionic ion pair, leading to the separation of the two oppositely charged surfactants composing the catanionic amphiphiles, and then more likely to form small objects such as micelles rather than vesicles. In the case of our glucose-derived catanionic surfactants, vesicles could be obtained in pure water, in glycerol/water mixtures, and in water/formamide mixtures up to a certain ratio of formamide. Above a formamide volume fraction of 0.7, only micelles were formed.
We introduce a convenient synthesis of anomeric sulfimides, the ability of which to act as glycosyl donors has been tested with various thiophilic reagents and acceptors.
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