Microencapsulation, Chemical Characterization, and Antimicrobial Activity of Mexican (Lippia graveolensH.B.K.) and European (Origanum vulgareL.) Oregano Essential Oils

Hernández-Hernández, Elvia; Regalado‐González, Carlos; Vázquez‐Landaverde, Pedro Alberto; Guerrero‐Legarreta, Isabel; García-Almendárez, Blanca E.

doi:10.1155/2014/641814

Cited by 44 publications

(42 citation statements)

References 34 publications

(53 reference statements)

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“…Antimicrobial activity was evaluated following the methodology of Hernández-Hernández [23]. Briefly, 10 mL of trypticase soy agar (0.8% w/v, Bioxon, Cuautitlan, México) was inoculated with 500 µL of L. innocua solution (10 7 CFU/mL), subsequently poured onto plates containing solidified agar (1.5% w/v).…”

Section: Antimicrobial Activitymentioning

confidence: 99%

Modified Starch-Chitosan Edible Films: Physicochemical and Mechanical Characterization

et al. 2017

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Starch and chitosan are widely used for preparation of edible films that are of great interest in food preservation. This work was aimed to analyze the relationship between structural and physical properties of edible films based on a mixture of chitosan and modified starches. In addition, films were tested for antimicrobial activity against Listeria innocua. Films were prepared by the casting method using chitosan (CT), waxy (WS), oxidized (OS) and acetylated (AS) corn starches and their mixtures. The CT-starches films showed improved barrier and mechanical properties as compared with those made from individual components, CT-OS film presented the lowest thickness (74 ± 7 µm), water content (11.53% ± 0.85%, w/w), solubility (26.77% ± 1.40%, w/v) and water vapor permeability ((1.18 ± 0.48) × 10−9 g·s−1·m−1·Pa−1). This film showed low hardness (2.30 ± 0.19 MPa), low surface roughness (Rq = 3.20 ± 0.41 nm) and was the most elastic (Young’s modulus = 0.11 ± 0.06 GPa). In addition, films made from CT-starches mixtures reduced CT antimicrobial activity against L. innocua, depending on the type of modified starch. This was attributed to interactions between acetyl groups of AS with the carbonyl and amino groups of CT, leaving CT with less positive charge. Interaction of the pyranose ring of OS with CT led to increased OH groups that upon interaction with amino groups, decreased the positive charge of CT, and this effect is responsible for the reduced antimicrobial activity. It was found that the type of starch modification influenced interactions with chitosan, leading to different films properties.

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Section: Antimicrobial Activitymentioning

confidence: 99%

Modified Starch-Chitosan Edible Films: Physicochemical and Mechanical Characterization

et al. 2017

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“…This problem may be overcome through the microencapsulation of essential oils, in which coating a micro-drop of essential oil is carried out with different solid compounds [10]. The purpose of microencapsulating an essential oil is to slow its release without losing its biological properties [11][12][13]. Microencapsulation is applied broadly for food preservation from food borne bacteria and fungi [10,14].…”

Section: Introductionmentioning

confidence: 99%

How Soil-Applied Maltodextrin with Caraway (Carum carvi L.) Oil Affects Weed and Soil Microbiological Activity in Maize (Zea mays L.) Stands

Synowiec¹,

Lenart‐Boroń²,

Bocianowski³

et al. 2019

Pol. J. Environ. Stud.

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The essential oil (EO) of caraway (Carum carvi L.) is a confirmed source of herbicidal compounds. Therefore, the object of this study was to determine the effect of soil-applied maltodextrin (MD) microcapsules containing approximately 12% caraway EO on weed infestation in maize (Zea mays) stands, the yield of maize and the number of colonies of soil microbes. A two-year field experiment was set up in a randomized block design on brown podzolic soil. It was shown that the MD-EO microcapsules affected the number of only some annual weeds, such as G. quadriradiata, G. parviflora, and E. crus-galli. The dry mass of monocotyledonous and dicotyledonous weeds was significantly reduced by all the MD treatments, on average by 45-65% and 35-65%, respectively, compared to the control. The number of maize plants and cobs per 1 m 2 was reduced by 17% and 21%, respectively, following the MD-EO treatments. The mass of the cobs was unaffected by the MD-EO treatments. The application of MD-EO caused a significant decrease in the number of soil mesophilic bacteria colonies but did not affect the amounts of phenolic compounds in the soil. In conclusion, the soil application of caraway EO within MD microcapsules has a potential as a natural weed control agent but should be studied further to optimize its dose and timing of application for weed control in maize stands.

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“…Numerous studies have reported the antibacterial and fungicidal properties of thymol (Andrade-Ochoa et al, 2015;Džamić et al, 2015;Hernández-Hernández et al, 2014). For this reason, this compound has received the attention of the food industry, thymol having been used as an antimicrobial agent and authorized by the Food and Drugs Administration (FDA) of the USA as generally recognised as safe (GRAS).…”

Section: Introductionmentioning

confidence: 99%

Production and characterisation of biodegradable PLA nanoparticles loaded with thymol to improve its antimicrobial effect

Marcet

Weng

Sáez‐Orviz

et al. 2018

Journal of Food Engineering

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Microencapsulation, Chemical Characterization, and Antimicrobial Activity of Mexican (Lippia graveolensH.B.K.) and European (Origanum vulgareL.) Oregano Essential Oils

Cited by 44 publications

References 34 publications

Modified Starch-Chitosan Edible Films: Physicochemical and Mechanical Characterization

Modified Starch-Chitosan Edible Films: Physicochemical and Mechanical Characterization

How Soil-Applied Maltodextrin with Caraway (<i>Carum carvi</i> L.) Oil Affects Weed and Soil Microbiological Activity in Maize (<i>Zea mays</i> L.) Stands

Production and characterisation of biodegradable PLA nanoparticles loaded with thymol to improve its antimicrobial effect

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