Alginate-coating of artemisinin-loaded cochleates results in better control over gastro-intestinal release for effective oral delivery

“…Using Image J software, the average widths and lengths of these cylindrical structures were estimated to be 42.7±5.16 nm and 420.36±28.91 nm, respectively. Accordingly, SEM images confirm the external distinguishable shape of nanocochleates in which the length to width aspect ratio was markedly changed from spherical liposomes as previously reported [46,61].…”

Enhanced oral permeability of Trans-Resveratrol using nanocochleates for boosting anticancer efficacy; in-vitro and ex-vivo appraisal

“…Using Image J software, the average widths and lengths of these cylindrical structures were estimated to be 42.7±5.16 nm and 420.36±28.91 nm, respectively. Accordingly, SEM images confirm the external distinguishable shape of nanocochleates in which the length to width aspect ratio was markedly changed from spherical liposomes as previously reported [46,61].…”

Enhanced oral permeability of Trans-Resveratrol using nanocochleates for boosting anticancer efficacy; in-vitro and ex-vivo appraisal

“…Phospholipids provide a robust nonpolar environment in the lipid region to accommodate hydrophobic cargoes. Second, some natural products such as chitosan (CS, pH‐responsive), [ 41 ] alginate (Alg, pH‐responsive), [ 42 ] and hyaluronic acid (HA, glucose‐responsive) [ 43 ] were used as stabilizers or stimuli‐responsive building blocks for lipid‐based NPs. Thus, a new carrier system is termed lipid‐polymer complex NPs, combining the properties of natural polymers and lipid NPs ( Figure a).…”

Tailored Drug Delivery Platforms: Stimulus‐Responsive Core–Shell Structured Nanocarriers

Cochleate Formulation Enhances the Stability of Lansoprazole in Acidic Condition