Based on the structure of polymeric nanocapsules containing a lipid-dispersed core composed of caprylic/capric trygliceride (CCT) and sorbitan monostearate (SM), we hypothesized that varying the core component concentrations the drug release kinetic could be modulated. Our objective was also to determine the parameters which were responsible for controlling the drug release kinetics. The nanocapsules were prepared by interfacial deposition of poly(epsilon-caprolactone). Interfacial hydrolysis of indomethacin ester (IndOEt) was used to simulate a sink condition of release. Mathematical modeling showed that the IndOEt half-lives increased (198 to 378 and 263 to 508 min) with the increase in the core lipid concentrations, and that the release mechanism was the anomalous transport. By increasing the SM concentration, the diameters were constant (around 250 nm) and the surface areas increased (from 1 06 × 10 4 to 1 51 × 10 4 cm 2 · ml −1 ), while by increasing the CCT concentration, the diameters increased (215 to 391 nm) and the surface areas reduced (1 46 × 10 4 to 1 06 × 10 4 cm 2 · ml −1 ). The presence of SM increased the viscosity of CCT and the IndOEt apparent permeability decreased from 4 26 × 10 −7 to 2 54 × 10 −7 cm · s −1 , while for CCT series, the apparent permeability was constant around 3 0 × 10 −7 cm · s −1 . A mathematical correlation was established and the IndOEt apparent permeability can be estimated by the SM concentration. In conclusion, varying the CCT and SM concentrations the IndOEt release was controlled by the nanocapsule surface area and by the viscosity of the core, respectively.
The objective of this work was to verify if hydrophilic gels containing benzophenone-3 loaded nanocapsules (HG-NC BZ3 could improve the sunscreen in vitro effectiveness against UVA radiation and its photostability compared to a conventional hydrogel containing the free sunscreen (HG-BZ3). In parallel, the immune response of the nanostructured system was evaluated by mouse ear swelling test and the local lymph node assay. The nanocapsules were prepared by interfacial deposition of poly(epsilon-caprolactone) and characterized in terms of particle size, polydispersity index, zeta potential, drug content and encapsulation efficiency. HG-NC BZ3 UV scans showed higher absorption intensity values than HG-NC placebo , prepared using unloaded nanocapsules. Films of the gels were irradiated with UVA light and the BZ3 recovery was evaluated by HPLC. BZ3 recovery decreased from 100% to 29% for HG-BZ3 and to 56% for HG-NC BZ3 after 13 h. After wavelength scans within 13 h, the relative areas under the curves (AUC) decreased from 1.00 to 0.62 for HG-BZ3 and remained constant for HG-NC BZ3 . Sensitization assay showed that stimulation indexes lower than 3 for all the hydrogel samples. Formulations did not induce increases higher than 10% in ear swelling, indicating that the hydrogels did not cause cutaneous sensitization in mice. The nanoencapsulation improved both the photostability and the effectiveness of BZ3 compared to the non-encapsulated sunscreen and the topical application of free and nanoencapsulated BZ3 did not produced significant allergy response in mice.
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