Novel Eudragit® -based polymeric nanoparticles for sustained release of simvastatin

Rodrigues, Déborah Fernandes; Couto, Renê Oliveira do; Sinisterra, Rubén D.; Jensen, Carlos Eduardo de Matos

doi:10.1590/s2175-97902019000418363

Cited by 6 publications

(3 citation statements)

References 40 publications

(39 reference statements)

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“…However, a further increase in the polymer concentration (1:2 ratio) displayed no significant difference in the entrapment of the drug. The results were comparable to the previously published reports of Eudragit polymeric nanoparticles, wherein an equal ratio of drug and polymer showed maximum entrapment efficiency 42 , 43 . Hence, the nanoparticles developed with a 1:1 ratio with maximum drug entrapment of 90% were selected as the optimized ones for further characterization and application.…”

Section: Resultssupporting

confidence: 90%

Polymer based dual drug delivery system for targeted treatment of fluoroquinolone resistant Staphylococcus aureus mediated infections

Thamilselvan

David

Sajeevan

et al. 2023

Sci Rep

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The present study attempts to treat S. aureus-induced soft skin infections using a combinatorial therapy with an antibiotic, Ciprofloxacin (CIP), and an efflux pump inhibitor 5-Nitro-2-(3-phenylpropoxy) pyridine (5-NPPP) through a smart hydrogel delivery system. The study aims to reduce the increasing rates of infections and antimicrobial resistance; therefore, an efflux pump inhibitor molecule is synthesized and delivered along with an antibiotic to re-sensitize the pathogen towards antibiotics and treat the infections. CIP-loaded polyvinyl alcohol (PVA) hydrogels at varying concentrations were fabricated and optimized by a chemical cross-linking process, which exhibited sustained drug release for 5 days. The compound 5-NPPP loaded hydrogels provided linear drug release for 2 days, necessitating the need for the development of polymeric nanoparticles to alter the release drug pattern. 5-NPPP loaded Eudragit RSPO nanoparticles were prepared by modified nanoprecipitation—solvent evaporation method, which showed optimum average particle size of 230–280 nm with > 90% drug entrapment efficiency. The 5-NPPP polymeric nanoparticles loaded PVA hydrogels were fabricated to provide a predetermined sustained release of the compound to provide a synergistic effect. The selected 7% PVA hydrogels loaded with the dual drugs were evaluated using Balb/c mice models induced with S. aureus soft skin infections. The results of in vivo studies were evidence that the dual drugs loaded hydrogels were non-toxic and reduced the bacterial load causing re-sensitization towards antibiotics, which could initiate re-epithelization. The research concluded that the PVA hydrogels loaded with CIP and 5-NPPP nanoparticles could be an ideal and promising drug delivery system for treating S. aureus-induced skin infections.

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Section: Resultssupporting

confidence: 90%

Polymer based dual drug delivery system for targeted treatment of fluoroquinolone resistant Staphylococcus aureus mediated infections

Thamilselvan

David

Sajeevan

et al. 2023

Sci Rep

View full text Add to dashboard Cite

show abstract

“…However, a further increase in the polymer concentration (1:2 ratio) had displayed no signi cant difference in the entrapment of the drug. The results were comparable to the previously published reports of Eudragit polymeric nanoparticles, wherein equal ratio of drug and polymer showed maximum entrapment e ciency 43,44 . Hence, the nanoparticles developed with a 1:1 ratio with maximum drug entrapment of 90% were selected as the optimized ones for further characterization and application.…”

Section: Development Of Polymeric Nanoparticles Of 5-nppp and Entrapm...supporting

confidence: 89%

Polymer-based dual drug delivery system for targeted treatment of fluoroquinolone-resistant Staphylococcus aureus mediated infections

Thamilselvan

David

Sajeevan

et al. 2023

Preprint

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The present study attempts to treat S. aureus-induced soft skin infections using a novel combinatorial therapy with an antibiotic, Ciprofloxacin (CIP), and an efflux pump inhibitor 5-Nitro-2-(3-phenylpropoxy) pyridine (5-NPPP) through a smart hydrogel delivery system. The study aims to reduce the increasing rates of infections and antimicrobial resistance; therefore, a novel efflux pump inhibitor molecule is synthesised and delivered along with an antibiotic to re-sensitize the pathogen towards antibiotics and treat the infections. CIP loaded polyvinyl alcohol (PVA) hydrogels at varying concentrations were fabricated and optimized by a chemical cross-linking process, which exhibited sustained release of the drug for 5 days. The compound 5-NPPP loaded hydrogels provided linear drug release for 2 days, necessitating the need for the development of polymeric nanoparticles to alter the release drug pattern. 5-NPPP loaded Eudragit RSPO nanoparticles were prepared by modified nanoprecipitation - solvent evaporation method, which showed optimum average particle size of 230–280 nm with > 90% drug entrapment efficiency. The 5-NPPP polymeric nanoparticles loaded PVA hydrogels were fabricated to provide a predetermined sustained release of the compound to provide synergistic effect. The selected 7% PVA hydrogels loaded with the dual drugs were evaluated using Balb/c mice models induced with S. aureus soft skin infections. The results of in vivo studies were evidenced that the dual drugs loaded hydrogels were non-toxic and reduced the bacterial load causing re-sensitization towards antibiotics, which could initiate re-epithelization. Overall, the research concluded that the PVA hydrogels loaded with CIP and 5-NPPP nanoparticles could be an ideal and promising drug delivery system to treat S. aureus induced skin infections.

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“…The results portrayed that free MN, F1, and F6 release have followed zero order, Higuchi diffusion and Baker and Lonsdale models, respectively, based on regression coefficient values ( Table 3 ). Pure MN displayed a continuous release of the same amount of drug per unit time (zero order) which correlated to its lipophilicity that is characterized by release kinetics of this nature (Rodrigues et al., 2020 ). In turn, PNCs (F1) are best fitted to Higuchi’s diffusion model where the drug released from the nanocapsules after the degradation of thin polymeric outer shell membrane is governed by the slow diffusion of MN from the viscous PCL matrix rather than erosion mechanism (El-Hesaisy & Swidan, 2020 ).…”

Section: Resultsmentioning

confidence: 99%

Polymeric versus lipid nanocapsules for miconazole nitrate enhanced topical delivery: in vitro and ex vivo evaluation

et al. 2022

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Nanocapsules can be equated to other nanovesicular systems in which a drug is entrapped in a void containing liquid core surrounded by a coat. The objective of the present study was to investigate the potential of polymeric and lipid nanocapsules (LNCs) as innovative carrier systems for miconazole nitrate (MN) topical delivery. Polymeric nanocapsules and LNCs were prepared using emulsification/nanoprecipitation technique where the effect of poly(ε-caprolactone (PCL) and lipid matrix concentrations with respect to MN were assessed. The resulted nanocapsules were examined for their average particle size, zeta potential, %EE, and in vitro drug release. Optimum formulation in both polymeric and lipidic nanocapsules was further subjected to anti-fungal activity and ex vivo permeation tests. Based on the previous results, nanoencapsulation strategy into polymeric and LNCs created formulations of MN with slow biphasic release, high %EE, and improved stability, representing a good approach for the delivery of MN. PNCs were best fitted to Higuchi’s diffusion while LNCs followed Baker and Lonsdale model in release kinetics. The encapsulated MN either in PNCs or LNCs showed higher cell viability in WISH amniotic cells in comparison with free MN. PNCs showed less ex vivo permeation. PNCs were accompanied by high stability and more amount drug deposition (32.2 ± 3.52 µg/cm 2 ) than LNCs (12.7 ± 1.52 µg/cm 2 ). The antifungal activity of the PNCs was high 19.07 mm compared to 11.4 mm for LNCs. In conclusion, PNCs may have an advantage over LNCs by offering dual action for both superficial and deep fungal infections.

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Novel Eudragit® -based polymeric nanoparticles for sustained release of simvastatin

Cited by 6 publications

References 40 publications

Polymer based dual drug delivery system for targeted treatment of fluoroquinolone resistant Staphylococcus aureus mediated infections

Polymer based dual drug delivery system for targeted treatment of fluoroquinolone resistant Staphylococcus aureus mediated infections

Polymer-based dual drug delivery system for targeted treatment of fluoroquinolone-resistant Staphylococcus aureus mediated infections

Polymeric versus lipid nanocapsules for miconazole nitrate enhanced topical delivery: in vitro and ex vivo evaluation

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