Development and Investigation of Zein and Cellulose Acetate Polymer Blends Incorporated with Garlic Essential Oil and β-Cyclodextrin for Potential Food Packaging Application

Marques, Clara Suprani; Silva, Rafael Resende Assis; Arruda, Társila Rodrigues; Ferreira, Ana Luiza Valadares; Oliveira, Taíla Veloso de; Moraes, Allan Robledo Fialho e; Dias, Marali Vilela; Vanetti, Maria Cristina Dantas; Soares, Nilda de Fátima Ferreira

doi:10.3390/polysaccharides3010016

Cited by 19 publications

(14 citation statements)

References 45 publications

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“…As stated before, an initial screening showed that the GEO did not affect the tested bacteria equally. While the Gram-positive bacteria, such as L. innocua, had their growth impaired by the EO, none of the Gram-negative bacteria investigated appeared to be affected by it (Marques et al, 2022). In this sense, it is possible that part of the diverse microbial population in cheese was not impacted by the active films, and was able to grow normally during the storage time.…”

Section: Assaymentioning

confidence: 93%

“…Selected colonies were taken from the plate and suspended in 0.85% (wt/v) saline solution until obtaining a visual suspension density similar to 0.5 McFarland turbidity standard (approximately 10 7 CFU•mL −1 ) and diluted 1:10. Then, we proceeded with the agar dilution method, with modifications, to investigate the MIC of GEO (CLSI, 2012;Marques et al, 2022). Samples were dispersed in 10 mL of liquefied BHI agar (around 45 °C), resulting in GEO final concentrations ranging from 39.75 µg•mL −1 to 2650 µg•mL −1 , and subsequently poured into Petri dishes with a diameter of 60 mm.…”

Section: Minimal Inhibitory Concentration (Mic)mentioning

confidence: 99%

“…The films were prepared according to Marques et al (2022). Three grams of cellulose acetate were added to 30 mL of acetone (ratio of 1:10 wt/v) and let disperse for 24 h. After that, 0.9 g of glycerol was added into dispersions (30% wt/wt based on polymer mass).…”

Section: Active Films Elaborationmentioning

confidence: 99%

“…with modifications (Marques et al, 2022). The films (Ø = 83 mm) were placed on poly(methyl methacrylate) cups containing a saturated solution of lithium chloride (12 ± 5%…”

Section: Water Vapor Permeability (Wvp)mentioning

confidence: 99%

“…Garlic compounds have been recognized as natural antimicrobial agents with a broad spectrum of action, showing activity against Gram-positive and Gram-negative bacteria (Ezeorba et al, 2022). However, an initial screening was done against different bacteria, and it was verified activity against only the Gram-positive ones (Marques et al, 2022). This result may be due to the EO composition, since the antimicrobial property of GEO depends on the type and ratio of the organosulfur compounds present Arbach et al, 2019).…”

Section: Assessment Of Geomentioning

confidence: 99%

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Development, characterization, application, and degradation of sustainable active packaging: cellulose acetate and zein films incorporated with garlic essential oil

Marques

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Biodegradable polymers obtained from renewable sources are considered potential substitutes for conventional plastics. In the present work, cellulose acetate (CA) and zein films containing garlic essential oil (GEO) and different plasticizers (glycerol and tributyrin) were manufactured, characterized, and evaluated as active films aiming food preservation, as well as investigated regarding their degradation in soil. In the first chapter, CA and zein blends were manufactured by adding glycerol or tributyrin as plasticizers, and GEO, complexed or not with β-cyclodextrin. Blends plasticized with tributyrin exhibited a more homogeneous surface than those containing glycerol. The blends underperformed the CA films at mechanical properties and water vapor permeability. However, they were more flexible than the zein brittle films. The films added with GEO presented in vitro activity against Listeria innocua and Staphylococcus aureus. These findings suggest that the mixture of CA and plasticizers could increase the range of application of zein as a sustainable packaging component, while GEO acts as a natural preservative. In the second chapter, CA-based films containing GEO were tested in vitro against L. innocua to verify the occurrence of sub-lethal injury and/or homologous resistance to GEO. Two conditions were tested: 7 oC for 10 days, and 37 oC for 24 h. The active films were also tested on food. The in vitro trials showed that the incubation under low temperature enhanced the active films properties: log reductions of 4.3 and 5.7 were obtained for films containing 1% and 10% of GEO, respectively. Moreover, 86.3% of L. innocua cells were injured at sub-lethal level when exposed to films with 10% of GEO for 10 days at 7 oC. Despite this, no occurrence of homologous resistance was found. When the active films were tested on food, they resulted in fewer contaminants. This work suggested that GEO is a safe active compound from the point of view of homologous resistance. In the third chapter, the degradation in soil of blend films and CA-based films was studied. Films were buried for 150 days and were studied in terms of weight loss, macro and micro changes, molecular alterations, and thermal degradation profile. The polymer mass loss was more noticeable in CA:zein blend films and in films produced through glycerol incorporation. Also, there was significant interaction between the plasticizer choice and presence of GEO: incorporation of GEO in glycerol-added films reduced the mass loss due to polymer degradation, while, when tributyrin was used, no impact was observed. FTIR spectra evidenced plasticizer loss, as well as degradation of zein in blend films and oxidation of the CA remaining hydroxyls. This study showed that the polymeric film’s degradation in soil can be dependent on the polymer matrix, the type of plasticizer, and the presence of antimicrobial agent. Overall, the present study showed that the plasticizer choice can impact on the antimicrobial property of active films, and that additives as well as the polymer type affect the degradation rate of biodegradable films. Additionally, GEO, acting as antimicrobial agent in films, did not cause homologous resistance in L. innocua cells. Keywords: Food preservation. Food Packaging. Polymers. Microbiology. Bacterial resistance. Degradation.7

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Section: Assaymentioning

confidence: 93%

Section: Minimal Inhibitory Concentration (Mic)mentioning

confidence: 99%

Section: Active Films Elaborationmentioning

confidence: 99%

“…with modifications (Marques et al, 2022). The films (Ø = 83 mm) were placed on poly(methyl methacrylate) cups containing a saturated solution of lithium chloride (12 ± 5%…”

Section: Water Vapor Permeability (Wvp)mentioning

confidence: 99%

Section: Assessment Of Geomentioning

confidence: 99%

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Development, characterization, application, and degradation of sustainable active packaging: cellulose acetate and zein films incorporated with garlic essential oil

Marques

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Incorporation of garlic (Allium sativum) essential oil into cellulose acetate films: effect on the preservation of sliced cooked ham

Bittencourt,

Marques,

Arruda

et al. 2023

Polymer International

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Garlic essential oil (GEO) has been recognized as a natural antimicrobial agent with a broad spectrum of action that can be associated with polymeric sustainable matrices to provide active packaging capable of improving the preservation of ready‐to‐eat (RTE) meat products. In this sense, the present study aimed to evaluate the effect of cellulose acetate (CA) films incorporated with GEO on the growth of spoilage microbial groups (psychrotrophic and lactic acid bacteria) and physicochemical characteristics (pH, acidity index, color, and index of thiobarbituric acid) of vacuum‐packed cooked sliced ham. Four treatments were evaluated (no film, CA‐film without GEO, CA‐film with 1.5% of GEO, and CA‐film with 3% of GEO, applied as interfold packaging) over time (12 days). There was a significant reduction (approximately 2.0 log cycle) in PSY and LAB growth when the active films were applied between the ham slices. Also, the lag phase of PSY was extended from around 2 to 6 days, which might positively impact the product's shelf life. However, the active films showed no significant effect on the food physicochemical characteristics. Therefore, the active CA‐films incorporated with small amounts of GEO could be an interesting alternative to reduce the impact of microbial spoilage on sliced cooked ham.This article is protected by copyright. All rights reserved.

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Recent Advances in Nanotechnological Approaches to Enhance the Industrial Application of Essential Oils and Their Application in Food Packaging

Arruda,

Marques,

Pinheiro

et al. 2023

Plant Essential Oils

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Development and Investigation of Zein and Cellulose Acetate Polymer Blends Incorporated with Garlic Essential Oil and β-Cyclodextrin for Potential Food Packaging Application

Cited by 19 publications

References 45 publications

Development, characterization, application, and degradation of sustainable active packaging: cellulose acetate and zein films incorporated with garlic essential oil

Development, characterization, application, and degradation of sustainable active packaging: cellulose acetate and zein films incorporated with garlic essential oil

Incorporation of garlic (Allium sativum) essential oil into cellulose acetate films: effect on the preservation of sliced cooked ham

Recent Advances in Nanotechnological Approaches to Enhance the Industrial Application of Essential Oils and Their Application in Food Packaging

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