Mucus penetrating properties of soft, distensible lipid nanocapsules

Mucus penetrating properties of soft, distensible lipid nanocapsules

[Display omitted] Designing nanomaterials to release their drug pay-load upon exposure to an exogenous trigger can help to direct drug delivery, but how the triggered release, which often modifies the nanomaterial properties, influences the biological fate of these systems is currently unknown. The...

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Published in:European journal of pharmaceutics and biopharmaceutics Vol. 139; pp. 76 - 84
Main Authors: Chen, Hanpeng, Mansfield, Edward D.H., Woods, Arcadia, Khutoryanskiy, Vitaliy V., Forbes, Ben, Jones, Stuart A.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-06-2019
Subjects:
Cystic fibrosis
Diffusion
Lipid
Mucoadhesion
Mucus
Nanomaterial
Nanoparticle
Penetration
Polystyrene
Size
Surface charge
Zeta potential
Surface charge
Penetration
Nanoparticle
Zeta potential
Size
Cystic fibrosis
Mucus
Diffusion
Mucoadhesion
Polystyrene
Nanomaterial
Lipid
nanomaterial
diffusion
mucoadhesion
size
penetration
cystic fibrosis
polystyrene
nanoparticle
surface charge
zeta potential
lipid
mucus
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Summary:[Display omitted] Designing nanomaterials to release their drug pay-load upon exposure to an exogenous trigger can help to direct drug delivery, but how the triggered release, which often modifies the nanomaterial properties, influences the biological fate of these systems is currently unknown. The aim of this study was to investigate how the triggered drug release from PEG coated, soft, 50 nm distensible lipid nanocapsules (LNC) influenced their diffusion across a mucus barrier. The translocation speed of the non-triggered LNC across a 35 µm thick purified gastric mucin (PGM) barrier was 3 times faster (30.08 ± 2.49 × 10−10 cm2 s−1) compared to equivalent-sized negatively charged polystyrene particles (9.87 ± 0.61 × 10−10 cm2 s−1, p < 0.05). In cystic fibrosis mucus (CFM), harvested from patient primary cells, the non-triggered LNC translocation speed was similar to the PGM, but the polystyrene particle diffusion was so slow it could not be measured. The trigger induced LNC distension process had no effect on the particle diffusion rate in both PGM and CFM (p > 0.05) in a static mucus barrier, but when shear was applied to the barrier the distended LNCs diffused more slowly (3.97 ± 1.38 × 10−8 cm2 s−1, p < 0.05) compared to the non-distended materials (4.94 ± 0.04 × 10−8 cm2 s−1). This data suggested the rapid mucus penetration of the distended LNCs, despite their increased size, was a consequence of their capacity to take a less tortuous path through the barrier, i.e., they experienced less steric hinderance, compared to the non-distended LNC.
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ISSN:0939-6411
1873-3441
DOI:10.1016/j.ejpb.2019.02.020