Nanoparticles Obtained from Zein for Encapsulation of Mesalazine

Lima, Izabela B.C.; Moreno, Lina Clara Gayoso e Almendra Ibiapina; Peres, Ana Victória; Santana, Ana Cristina Gramoza; Carvalho, Adonias Almeida; Chaves, Mariana Helena; Lima, Lorena Almeida; Sousa, Rayran Walter Ramos de; Dittz, Dalton; Rolim, Hercí­lia Maria Lins; Nunes, Lívio César Cunha

doi:10.3390/pharmaceutics14122830

Pharmaceutics

2022

DOI: 10.3390/pharmaceutics14122830

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Nanoparticles Obtained from Zein for Encapsulation of Mesalazine

Izabela B.C. Lima

Lina Clara Gayoso e Almendra Ibiapina Moreno

Ana Victória Peres

et al.

Abstract: We encapsulated MSZ in zein nanoparticles (NP-ZN) using a desolvation method followed by drying in a mini spray dryer. These nanoparticles exhibited a size of 266.6 ± 52 nm, IPD of 0.14 ± 1.1 and zeta potential of −36.4 ± 1.5 mV, suggesting colloidal stability. Quantification using HPLC showed a drug-loaded of 43.8 µg/mg. SEM demonstrated a spherical morphology with a size variation from 220 to 400 nm. A FTIR analysis did not show drug spectra in the NPs in relation to the physical mixture, which suggests drug… Show more

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Cited by 6 publications

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Zein nanoencapsulation enhances the antifungal activity of thymol for postharvest decay control in bananas

Punelas–Villanueva,

Almeda,

Chua

et al. 2024

emergent mater.

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The current work describes a nanoparticle system-based approach to enhance the antifungal activity of thymol, a ubiquitous natural antifungal phenolic compound, in postharvest control against banana anthracnose. Thymol was encapsulated within the amphiphilic protein zein by high-shear emulsification, yielding highly dispersible thymol-loaded zein nanoparticles with a high encapsulation efficiency (70%). These particles have an average diameter of 300 nm with spherical morphology, smooth interface, and matrix-type internal structure, as supported by comprehensive structural characterization (dynamic light scattering, transmission electron microscopy and atomic force microscopy). Based on a 40-d storage stability test, thymol was effectively retained within the nanoparticles at 4 °C and ambient room temperature (99% and 97% retention, respectively), despite thymol’s instability and volatility. Antifungal activity assessment against Colletotrichum musae, one of the predominant pathogens that cause banana anthracnose, showed a 200- to 300-fold improvement in the in vitro antifungal activity of thymol. Moreover, the application of thymol-loaded zein nanoparticles as a spray component for banana postharvest treatment demonstrated the efficacy of thymol-loaded zein nanoparticles in preventing and delaying the formation of initial symptoms of banana anthracnose. This appears to arise from the thymol-loaded zein nanoparticles depositing as a film on the banana epidermis, as revealed by atomic force microscopy. Overall, this nanoparticle system offers a new avenue for the design of effective antifungal materials with potential applications in combatting postharvest diseases. Graphical abstract

show abstract

Zein nanoencapsulation enhances the antifungal activity of thymol for postharvest decay control in bananas

Punelas–Villanueva,

Almeda,

Chua

et al. 2024

emergent mater.

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show abstract

Carp scales derived double cross-linking hydrogels achieve collagen peptides sustained-released for bone regeneration

Zheng,

Ju,

Lü

et al. 2024

International Journal of Biological Macromolecules

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Impact of phytoceuticals: Thymol-loaded zein-based nano-antimicrobials to combat resistant zoonotic pathogen

Zafeer,

Imran

2024

Industrial Crops and Products

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Nanoparticles Obtained from Zein for Encapsulation of Mesalazine

Cited by 6 publications

References 50 publications

Zein nanoencapsulation enhances the antifungal activity of thymol for postharvest decay control in bananas

Zein nanoencapsulation enhances the antifungal activity of thymol for postharvest decay control in bananas

Carp scales derived double cross-linking hydrogels achieve collagen peptides sustained-released for bone regeneration

Impact of phytoceuticals: Thymol-loaded zein-based nano-antimicrobials to combat resistant zoonotic pathogen

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