Spectroscopic examination and release of microencapsulated oregano essential oil

Partheniadis, Ioannis; Karakasidou, Panagiota; Vergkizi, Souzan; Nikolakakis, Ioannis

doi:10.5599/admet.5.4.426

Cited by 20 publications

(12 citation statements)

References 20 publications

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“…However, an interaction between the oregano oil and the chitosan-alginate nanoparticles is not excluded because of the changed intensity and the appearance of new peaks. Similar interaction is observed for microencapsulated oregano oil using acacia, starch, and maltodextrin [63].…”

Section: Ftir Spectra Of Pure Oregano Oil Empty and Oro-loaded Chitosan-alginate Nanoparticlessupporting

confidence: 73%

Improvement of the Antimicrobial Activity of Oregano Oil by Encapsulation in Chitosan—Alginate Nanoparticles

et al. 2021

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Oregano oil (OrO) possesses well-pronounced antimicrobial properties but its application is limited due to low water solubility and possible instability. The aim of this study was to evaluate the possibility to incorporate OrO in an aqueous dispersion of chitosan—alginate nanoparticles and how this will affect its antimicrobial activity. The encapsulation of OrO was performed by emulsification and consequent electrostatic gelation of both polysaccharides. OrO-loaded nanoparticles (OrO-NP) have small size (320 nm) and negative charge (−25 mV). The data from FTIR spectroscopy and XRD analyses reveal successful encapsulation of the oil into the nanoparticles. The results of thermogravimetry suggest improved thermal stability of the encapsulated oil. The minimal inhibitory concentrations of OrO-NP determined on a panel of Gram-positive and Gram-negative pathogens (ISO 20776-1:2006) are 4–32-fold lower than those of OrO. OrO-NP inhibit the respiratory activity of the bacteria (MTT assay) to a lower extent than OrO; however, the minimal bactericidal concentrations still remain significantly lower. OrO-NP exhibit significantly lower in vitro cytotoxicity than pure OrO on the HaCaT cell line as determined by ISO 10993-5:2009. The irritation test (ISO 10993-10) shows no signs of irritation or edema on the application site. In conclusion, the nanodelivery system of oregano oil possesses strong antimicrobial activity and is promising for development of food additives.

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Section: Ftir Spectra Of Pure Oregano Oil Empty and Oro-loaded Chitosan-alginate Nanoparticlessupporting

confidence: 73%

Improvement of the Antimicrobial Activity of Oregano Oil by Encapsulation in Chitosan—Alginate Nanoparticles

et al. 2021

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“…By incorporation of thyme and oregano essential oils into collagen hydrolysate (P2 and P3 samples), both spectra show the typical pattern of protein molecules, suggesting that the prominent bands characteristic of essential oils were overlapped with the characteristic bands of collagen. The peaks that are common in the FT-IR spectra for thyme and oregano essential oils are ascribed at: 2960 cm −1 to antisymmetrical -CH 3 stretching vibration, 1419 cm −1 to antisymmetrical -CH 3 bending and 1226-1289 cm −1 to C-O-C stretching [46] and 940-945 cm −1 γ-terpinene [47].…”

Section: Structural Analysis By Atr-ftirmentioning

confidence: 97%

“…ATR-FTIR spectra for thyme essential oil, oregano essential oil, collagen nanofibres and collagen loaded with thyme essential oil and oregano essential oil are presented in Figure 5. The peaks that are common in the FT-IR spectra for thyme and oregano essential oils are ascribed at: 2960 cm −1 to antisymmetrical -CH3 stretching vibration, 1419 cm −1 to antisymmetrical -CH3 bending and 1226-1289 cm −1 to C-O-C stretching [46] and 940-945 cm −1 ɣ-terpinene [47].…”

Section: Structural Analysis By Atr-ftirmentioning

confidence: 97%

Bioactive Properties of Nanofibres Based on Concentrated Collagen Hydrolysate Loaded with Thyme and Oregano Essential Oils

et al. 2020

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This research aimed to obtain biocompatible and antimicrobial nanofibres based on concentrated collagen hydrolysate loaded with thyme or oregano essential oils as a natural alternative to synthesis products. The essential oils were successfully incorporated using electrospinning process into collagen resulting nanofibres with diameter from 471 nm to 580 nm and porous structure. The presence of essential oils in collagen nanofibre mats was confirmed by Attenuated Total Reflectance -Fourier Transform Infrared Spectroscopy (ATR-FTIR), Ultraviolet–visible spectroscopy (UV–VIS) and antimicrobial activity. Scanning Electron Microscopy with Energy Dispersive Spectroscopy analyses allowed evaluating the morphology and constituent elements of the nanofibre networks. Microbiological tests performed against Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa and Candida albicans showed that the presence of essential oils supplemented the new collagen nanofibres with antimicrobial properties. The biocompatibility of collagen and collagen with essential oils was assessed by in vitro cultivation with NCTC clone 929 of fibroblastic cells and cell viability measurement. The results showed that the collagen and thyme or oregano oil composites have no cytotoxicity up to concentrations of 1000 μg·mL−1 and 500 μg mL−1, respectively. Optimization of electrospinning parameters has led to the obtaining of new collagen electrospun nanofibre mats loaded with essential oils with potential use for wound dressings, tissue engineering or protective clothing.

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“…The characteristic peaks at 1054, 1116 and 1172 cm −1 were attributed to para-substitution of p -cymene, ortho-substitution of carvacrol and meta-substitution of thymol, respectively [ 39 ]. The characteristic peaks at (1243, 1297 cm −1 ) and (1423, 1459 cm −1 ) can be attributed to the C-O stretching [ 64 , 65 ] and C=C aromatic vibration [ 36 ] of the active components. The characteristic peaks at 1356, 1507, 1583 were attributed to the asymmetric bending of the isopropyl group, C=C stretching carvacrol, thymol and p -cymene [ 39 ].…”

Section: Resultsmentioning

confidence: 99%

Submicron-Sized Vermiculite Assisted Oregano Oil for Controlled Release and Long-Term Bacterial Inhibition

et al. 2021

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Oregano essential oil (OEO) is a natural compound consisting of potent antibiotic molecules. Its volatility is the major obstacle against the transportation and anti-bacterial performance. In this work, submicron-sized vermiculite (SMV) particles were prepared from Australian vermiculite clay by ball milling, and tested as a potential particulate-carrier for OEO. The loading of OEO by SMV can be easily achieved by mechanical mixing. Compared to raw vermiculite and free OEO, the OEO-loaded SMV displayed sustained isothermal release behaviour of OEO and demonstrated enhanced antibacterial performance in in vitro antibacterial tests against Escherichia coli (E. coli) and Staphylococcus epidermidis (S. epidermidis). This study provides a facile and commercially viable approach in designing advantageous carriers for volatile actives in antimicrobial applications.

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Spectroscopic examination and release of microencapsulated oregano essential oil

Cited by 20 publications

References 20 publications

Improvement of the Antimicrobial Activity of Oregano Oil by Encapsulation in Chitosan—Alginate Nanoparticles

Improvement of the Antimicrobial Activity of Oregano Oil by Encapsulation in Chitosan—Alginate Nanoparticles

Bioactive Properties of Nanofibres Based on Concentrated Collagen Hydrolysate Loaded with Thyme and Oregano Essential Oils

Submicron-Sized Vermiculite Assisted Oregano Oil for Controlled Release and Long-Term Bacterial Inhibition

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