AI Article Synopsis
- Researchers created submicrometric lipid carriers to deliver curcumin to intestinal cells using a balanced lipid mixture of monoolein, sunflower oil, and water, which showed high encapsulation efficiency.
- The carriers were stabilized using different agents: whey protein isolates alone, a combination of whey protein and modified starch, or polysorbate 20, with polysorbate 20 resulting in the smallest particle size.
- Although whey protein-stabilized carriers provided better stability and degradation control, T20-stabilized systems had higher curcumin uptake in cell studies due to their smaller size and stronger adhesion to cell membranes.
Article Abstract
Submicrometric lipid-based carriers were developed to encapsulate curcumin and deliver it to intestinal epithelial cells. A lipid matrix comprising monoolein, sunflower oil and water at weight ratio 1:1:1 was selected, upon screening of different combinations of amphiphilic molecules, vegetable oils and water, because of its high encapsulations efficiency of curcumin, retained over time and relatively lower content of amphiphilic molecules. Upon dispersion in aqueous phase, the carriers were stabilized by: (a) whey protein isolates (WPI), alone and (b) in combination with modified starch (WPI-MS), or by (c) polysorbate 20 (T20). Whereas T20-stabilized systems exhibited extremely fine particles (120 nm), WPI and WPI-MS stabilized carriers were characterized by a significantly larger mean particle size (270 nm). The thicker macromolecular layer of WPI and WPI-MS enabled better (a) physical stability, (b) controlled shell degradation during simulated digestion, and (c) curcumin bioaccessibility targeted at the intestinal digestion phase than T20-systems. However, uptake studies in HT29 cell lines, simulating intestinal epithelial cells, showed that WPI and WPI-MS carriers exhibited after 24h a lower relative uptake than T20-stabilized systems (about 60% and 80%, respectively), as a consequence of smaller size and higher cell adherence of T20 carriers to the cell membrane.
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| http://dx.doi.org/10.1016/j.ijpharm.2015.08.039 | DOI Listing |
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