Composite Hydrogel with Oleic Acid-Grafted Mesoporous Silica Nanoparticles for Enhanced Topical Delivery of Doxorubicin.
Marta SlavkovaDiana DimitrovaChristina VoychevaTeodora PopovaIvanka SpassovaDaniela KovachevaYordan I YordanovVirginia TzankovaBorislav TzankovPublished in: Gels (Basel, Switzerland) (2024)
Mesoporous silica nanoparticles (MSNs) are inorganic nanocarriers presenting versatile properties and the possibility to deliver drug molecules via different routes of application. Their modification with lipids could diminish the burst release profile for water-soluble molecules. In the case of oleic acid (OA) as a lipid component, an improvement in skin penetration can be expected. Therefore, in the present study, aminopropyl-functionalized MSNs were modified with oleic acid through carbodiimide chemistry and were subsequently incorporated into a semisolid hydrogel for dermal delivery. Doxorubicin served as a model drug. The FT-IR and XRD analysis as well as the ninhydrin reaction showed the successful preparation of the proposed nanocarrier with a uniform particle size (352-449 nm) and negative zeta potential. Transmission electron microscopy was applied to evaluate any possible changes in morphology. High encapsulation efficiency (97.6 ± 1.8%) was achieved together with a sustained release profile over 48 h. The composite hydrogels containing the OA-modified nanoparticles were characterized by excellent physiochemical properties (pH of 6.9; occlusion factor of 53.9; spreadability of factor 2.87 and viscosity of 1486 Pa·s) for dermal application. The in vitro permeation study showed 2.35 fold improvement compared with the hydrogel containing free drug. In vitro cell studies showed that loading in OA-modified nanoparticles significantly improved doxorubicin's cytotoxic effects toward epidermoid carcinoma cells (A431). All of the results suggest that the prepared composite hydrogel has potential for dermal delivery of doxorubicin in the treatment of skin cancer.
Keyphrases
- drug delivery
- wound healing
- cancer therapy
- water soluble
- drug release
- hyaluronic acid
- tissue engineering
- skin cancer
- knee osteoarthritis
- electron microscopy
- adverse drug
- single cell
- emergency department
- stem cells
- drug induced
- molecularly imprinted
- photodynamic therapy
- high frequency
- human health
- risk assessment
- simultaneous determination
- mesenchymal stem cells
- case control
- climate change