Development and evaluation of viscosity-enhanced nanocarrier (VEN) for oral insulin delivery.

Solid lipid nanoparticles (SLN) have demonstrated good potential for oral peptide delivery. However, their hydrophobic nature generally accounts for low peptide entrapment efficiency (EE%). In this study, a new strategy was adopted to improve peptide EE% by incorporating a hydrophilic viscosity-enhancing agent (VA) within SLN cores to develop viscosity enhanced nanocarriers (VEN).

Methocel-Lipid Hybrid Nanocarrier for Efficient Oral Insulin Delivery.

Even with the use of double-emulsion technique for preparation, the hydrophobic nature of solid lipid nanoparticles (SLNs) limits their encapsulation efficiency (EE%) for peptides such as insulin. In this study, we hypothesize that inclusion of Methocel into SLN to form Methocel-lipid hybrid nanocarriers (MLNs) will significantly enhance insulin EE% without compromising the various characteristics of SLN favorable for oral drug delivery. Our data show that incorporation of 2% wt/wt of Methocel A15C had doubled insulin EE% (around 40%) versus conventional SLN prepared using standard double emulsion technique.