Recent developments in lyotropic liquid crystals as drug delivery vehicles.

Citation:

Dima Libster, Aserin, Abraham , and Garti, Nissim. . 2012. “Recent Developments In Lyotropic Liquid Crystals As Drug Delivery Vehicles.”. In Self-Assem. Supramol. Archit., Pp. 219–256. John Wiley & Sons, Inc. doi:10.1002/9781118336632.ch8.

Abstract:

A review. Recently, self-assembled lyotropic liq. crystals (LLCs) of lipids and water have attracted the attention of both the scientific and the applied research communities due to the remarkable structural complexity and practical potential of these nanostructures in diverse applications. The phase behavior of mixts. of glycerol monooleate (monoolein, GMO) was particularly well studied due to the potential utilization of these systems in drug delivery systems, food products, and encapsulation and crystn. of proteins. The present chapter summarizes structural features of LLCs and recent systematic efforts to utilize these for solubilization and the potential release of drugs and biomacromols. One of the most interesting applications is the implementation of cell-penetrating peptides in the reversed hexagonal mesophase to enhance the skin-penetrating pattern of a model drug (sodium diclofenac). Liq. crystal vehicles were shown to allow "on demand" targeted release, based on controlling the polymorphism of lyotropic liq. cryst. mesophases. Novel liq. cryst. matrix-gold nanorod hybrid materials were reported to induce light-triggered phase transition of liq. cryst. phases. Hydrophobized gold nanorods (GNRs) have been incorporated within the LLCs, composed of phytantriol and water, to provide remote heating, and trigger the phase transitions on irradn. at close to their resonant wavelength. A new pathway to pH-responsive LLCs, enabling the controlled release of hydrophilic drugs diffusing through the water channels of the mesophases, was also investigated. The system is capable of self-assembling into a reverse bicontinuous cubic phase of Im3m symmetry at pH 7 and transforming into a reverse columnar hexagonal phase at pH 2. Lyotropic liq. crystals were shown to entrap several nucleotides into cubic and lamellar monoolein-based mesophases in order to protect them and enable their release. DNA (DNA) within two types of reverse columnar hexagonal mesophases was studied, one based on pure nonionic lipids and the other decorated by cationic lipids to induce opposite charges at the surfaces of the water channels of the mesophases. This provided new opportunities in the design technologies for DNA transfection and for gene delivery. The main outcomes of the described research demonstrated that control of the phys. properties of hexagonal LLC on different length scales is key for rational design of these systems as delivery vehicles for both low-mol.-wt. therapeutics and biomacromols. [on SciFinder(R)]

Last updated on 05/27/2020