Dynamic changes in the structure of lipid lyotropic liquid crystals upon mixing of different lipid systems were investigated using simultaneous low-frequency Raman (LFR) and small-angle X-ray scattering (SAXS) at a synchrotron facility. Monoolein and phytantriol were investigated as lipids with broadly highlighted potential for drug delivery. Their dispersed cubic phase structures were perturbed by mixing with a vitamin E acetate emulsion, known to modify the mesophase structures formed by monoolein and phytantriol, in the presence or absence of a lipophilic drug (cinnarizine). This mixing strategy enabled the exploration of structurally distinct and compositionally complex scenarios to establish direct correlations between LFR spectral features and mesophase structural parameters determined by SAXS, thereby assessing how LFR can be used to sensitively track composition-driven mesophase transformations. Crucially, the concurrent LFR-SAXS approach also allowed the evaluation of the affinity for cinnarizine to favorably interact with these lipids and form specific nanostructures leading to increased drug solubilization. These results illustrate how combined LFR-SAXS measurements can inform and expand the future use of LFR as a partially independent, structure-sensitive probe of lipid mesophase dynamics.
Bērziņš et al. (Tue,) studied this question.