In vivo gastroprotective effect of nanoparticles: influence of chemical composition and volume fraction.
2013
In nanomedicine, different nanomaterials and nanoparticles have been proposed as therapeutic agents or adjuvants, as well as
diagnosis devices. Considering that the principal cause of the ulcerations is the imbalance among the gastric juice secretion and the protection
provided by the mucosal barrier and the neutralization of the gastric acid, as well as that nanoparticles are able to accumulate in
the gastro-intestinal tissues, we proposed a 2 2 factorial design to evaluate the influence of the chemical composition and the volume fraction
of the dispersed phase on the gastric protective effect against ulceration induced by ethanol. Cocoa-theospheres (CT) and lipid-core
nanocapsules (LNC) (two different kinds of surfaces: lipid and polymeric, respectively) prepared at two different concentrations of soft
materials: 4% and 12% (w/v) were produced by high pressure homogenization and solvent displacement methods, respectively. Laser diffraction
showed volume-weighted mean diameters ranging from 133 to 207 nm, number median diameters lower than 100 nm and specific
surfaces between 41.2 and 51.2 m 2 g -1 . The formulations had pH ranging from 4.7 to 6.3; and zeta potential close to -9 mV due to
their coating with polysorbate 80. The ulcer indexes were 0.40 (LNC 4 ) and 0.48 (CT 4 ) for the lower total administered areas (3.3 and 4.1
msup>2 g -1 , respectively), and 0.09 (LNC 12 and CT 12 ) for the higher administered areas (10.0 and 12.0 m 2 g -1 , respectively). LNC 4 , LNC 12 and
CT 12 showed lower levels in the lipid peroxidation assay when compared either to the negative control (saline) or to CT 4 . LNC 12 and CT 12
showed similar TBARS levels, as well as CT 4 was similar to the negative control. SEM analysis of the stomach mucosa showed coatings
more homogenous and cohesive when LNC formulations were administered compared to the correspondent CT formulations. The higher
total area of administered nanoparticles showed film formation. Moreover, LNC 12 provided a more thick and cohesive film, completely
covering the mucosal surface. In conclusion, both kinds of formulations are able to prevent ulceration induced by ethanol in rats. The 2 2
factorial design showed that the chemical composition had a strong influence when the lower areas of nanoparticles are administered,
while when the higher areas are used this is the more influencing parameter on the gastroprotection.
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