Lyotropic liquid crystalline phases: Drug delivery and biomedical applications

Int J Pharm. 2023 Nov 25:647:123546. doi: 10.1016/j.ijpharm.2023.123546. Epub 2023 Oct 25.

Abstract

Liquid crystal (LC)-based nanoformulations may efficiently deliver drugs and therapeutics to targeted biological sites. Lyotropic liquid crystalline phases (LLCPs) have received much interest in recent years due to their unique structural characteristics of both isotropic liquids and crystalline solids. These LLCPs can be utilized as promising drug delivery systems to deliver drugs, proteins, peptides and vaccines because of their improved drug loading, stabilization, and controlled drug release. The effects of molecule shape, microsegregation, and chirality are very important in the formation of liquid crystalline phases (LCPs). Homogenization of self-assembled amphiphilic lipids, water and stabilizers produces LLCPs with different types of mesophases, bicontinuous cubic (cubosomes) and inverse hexagonal (hexosomes). Moreover, many studies have also shown higher bioadhesivity and biocompatibility of LCs due to their structural resemblance to biological membranes, thus making them more efficient for targeted drug delivery. In this review, an outline of the engineering aspects of LLCPs and polymer-based LLCPs is summarized. Moreover, it covers parenteral, oral, transdermal delivery and medical imaging of LC in targeting various tissues and is discussed with a scope to design more efficient next-generation novel nanosystems. In addition, a detailed overview of advanced liquid crystal-based drug delivery for vaccines and biomedical applications is reviewed.

Keywords: Controlled drug release; Cubosomes; Hexosomes; Liquid crystals; Lyotropic liquid crystals; Mesophases; Novel lipid nanoparticles.

Publication types

  • Review

MeSH terms

  • Drug Delivery Systems / methods
  • Lipids / chemistry
  • Liquid Crystals* / chemistry
  • Pharmaceutical Preparations
  • Vaccines*

Substances

  • Lipids
  • Pharmaceutical Preparations
  • Vaccines