Development of Flexible Antimicrobial Packaging Materials against <i>Campylobacter jejuni</i> by Incorporation of Gallic Acid into Zein-Based Films

Alkan, Derya; Aydemir, Levent Yurdaer; Arcan, İskender; Yavuzdurmaz, Hatice; Atabay, H.I.; Ceylan, Cagatay; Yemenicioğlu, Ahmet

doi:10.1021/jf202584b

Cited by 75 publications

(56 citation statements)

References 38 publications

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“…However, the composites and blend films are still much more flexible than the controls. This result confirmed the recent findings of Alkan et al (2011) who tested mechanical properties of zein and zein-wax composites containing gallic acid. Fabra, Talens, and Chiralt (2008) also reported reduction in elongation of wax containing caseinate films and attributted this effect to discontinuities in the polymer network by the incorporated waxes.…”

Section: Mechanical Properties Of Filmssupporting

confidence: 92%

“…Effects of plasticizer catechin on lysozyme release profiles of films Arcan and Yemenicioglu (2011) have recently found that some phenolic compounds including catechin can be used effectively as natural plasticizer for zein films which has commercialization problems as self-standing films due to their brittleness and lack of flexibility. The interaction of hydroxyl groups of phenolic compounds with carbonyl groups of zein biopolymer creates a plasticizing effect and causes modifications in film morphology depending on the molecular properties of phenolic compounds (Alkan et al, 2011;Arcan & Yemenicioglu, 2011). The major morphological change caused by catechin in zein films is the reduced film porosity (Arcan & Yemenicioglu, 2011).…”

Section: Resultsmentioning

confidence: 99%

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Development of flexible zein–wax composite and zein–fatty acid blend films for controlled release of lysozyme

Arcan

Yemenicioğlu

2013

Food Research International

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The aim of this study was controlled release of lysozyme by modification of hydrophobicity and morphology of zein films using composite and blend film making methods. The incorporation of beeswax, carnauba or candelilla wax into films at 5% (w/w) of zein gave composite films containing amorphous wax particles, while incorporation of oleic acid into film at 5% of zein caused formation of blend films containing many spherical zein capsules within their matrix. The lysozyme release rates of composites reduced as the melting point of waxes increased. The composites and blends showed 2.5 to 17 fold lower lysozyme release rates than controls. The films were effectively plasticized by using catechin. The catechin also provided antioxidant activity of films (up to 69 μmol Trolox/cm 2 ) and contributed to their controlled release properties by reducing film porosity. The films showed antimicrobial activity against Listeria innocua. This work showed the possibility of obtaining advanced edible films having flexibility, antimicrobial and antioxidant activity and controlled release properties.

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Section: Mechanical Properties Of Filmssupporting

confidence: 92%

Section: Resultsmentioning

confidence: 99%

Development of flexible zein–wax composite and zein–fatty acid blend films for controlled release of lysozyme

Arcan

Yemenicioğlu

2013

Food Research International

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“…This indicates that the some of the CD molecules located on the fiber surface whereas some CD molecules are buried in the bulk of the fiber matrix. Zein is a useful food packaging material (Alkan et al, 2011;Shi et al, 2009), and CDs have inclusion complexation capability with variety of molecules including aromas, colors, antioxidants, antibacterials, odors, and other functional ingredients (Del Valle, 2004;Hedges, 1998;Szejtli, 1998), therefore, zein/CD nanofibers may have the potentials to be used as active food packaging (López-de-Dicastillo, Gallur, Catalá, Gavara, & Hernandez-Muñoz, 2010; López-de-Dicastillo, Jordá-Beneyto, Catalá, Gavara, & HernandezMuñoz, 2011) materials owing to surface associated CD molecules and their high surface areas.…”

Section: Surface Characterization Of Zein/cd Nanofibersmentioning

confidence: 99%

“…Zein films and zein micro/nano particles can be used for encapsulation of essential oils, aromas and flavors, controlled release of active additives and as an active food packaging material, etc. (Alkan et al, 2011;Parris, Cooke, & Hicks, 2005;Patel, Heussen, Hazekamp, Drost, & Velikov, 2012;Sanchez-Garcia, Hilliou, & Lagaron, 2010;Shi, Kokini, & Huang, 2009;Zhong, Jin, Davidson, & Zivanovic, 2009). In the recent years, electrospinning of zein nanofibers have received much attention as well (Jiang, Reddy, & Yang, 2010;Jiang & Yang, 2011;Jiang, Zhao, & Zhu, 2007;Miyoshi, Toyohara, & Minematsu, 2005;Selling et al, 2007Torres-Giner, Gimenez, & Lagaron, 2008;).…”

Section: Introductionmentioning

confidence: 99%

Electrospun zein nanofibers incorporating cyclodextrins

Kayacı

Uyar

2012

Carbohydrate Polymers

129

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a b s t r a c tZein nanofibers containing cyclodextrins (zein/CD) were produced via electrospinning. Three types of CDs (␣-CD, ␤-CD and ␥-CD) having 10%, 25% and 50% (w/w) were individually incorporated into zein nanofibers. SEM imaging elucidated that the morphologies of the electrospun zein/CD nanofibers depended on the CD type and weight percentage. The incorporation of CDs in zein improved the electrospinnability and bead-free nanofibers were obtained at lower zein concentrations. Zein/CD nanofibers having fiber diameters ∼100-400 nm were obtained depending on the zein concentrations, types and weight percentages of CD. XRD studies revealed that CDs were mostly distributed without forming crystalline aggregates for zein/CD nanofibers containing lower weight percentage of CDs. The surface analyses of zein/CD nanofibers by ATR-FTIR and XPS indicated that some of the CDs were present on the fiber surface. Thermal analyses showed that zein/␤-CD nanofibers have shown higher glass transition temperatures and higher degradation temperature with increasing CD content.

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“…The increase in the solubility for the gallic acid treated films can be attributed to the high number of hydroxyl groups in gallic acid as well as the inherent property of gallic acid of being soluble in water. Some authors have previously reported that depending on incorporated gallic acid concentration, 60-80 % was released from the films, while the remaining gallic acid was trapped in the film matrix (Alkan et al 2011). It was observed (data not shown) that the fraction less than 180 Da which covered the gallic acid had the highest concentration after gallic acid treatment (56 % for the gallic acid treated film solution against 22 % for the control) suggesting that gallic acid was retained and considering the hydrophilic nature of gallic acid, this might probably be the reason for the increased solubility from the presumed trapped gallic acid in the film matrix.…”

Section: Effect Of Gallic Acid On Thickness Moisture Content and Solmentioning

confidence: 99%

Effect of Gallic acid on mechanical and water barrier properties of zein-oleic acid composite films

Masamba

Hategekimana

et al. 2016

J Food Sci Technol

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In this study, the effect of gallic acid on mechanical and water barrier properties of zein-oleic acid 0-4 % composite films was investigated. Molecular weight distribution analysis was carried out to confirm gallic acid induced cross linking through change in molecular weight in fraction containing zein proteins. Results revealed that gallic acid treatment increased tensile strength from 17.9 MPa to 26.0 MPa, decreased water vapour permeability from 0.60 (g mm m, increased solubility from 6.3 % to 10.2 % and marginally increased elongation at break from 3.7 % to 4.2 % in zein films only. However, gallic acid treatment in zein-oleic composite films did not significantly influence mechanical and water barrier properties and in most instances irrespective of oleic acid concentration, the properties were negatively affected. Results from scanning electron microscopy showed that both gallic acid treated and untreated zein films and composite films containing 3 % oleic acid had a compact and homogeneous structure while those containing 4 % oleic acid had inhomogeneous structure. The findings have demonstrated that gallic acid treatment can significantly improve mechanical and water barrier properties especially in zein films only as opposed to when used in composite films using zein and oleic acid.

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Development of Flexible Antimicrobial Packaging Materials against Campylobacter jejuni by Incorporation of Gallic Acid into Zein-Based Films

Cited by 75 publications

References 38 publications

Development of flexible zein–wax composite and zein–fatty acid blend films for controlled release of lysozyme

Development of flexible zein–wax composite and zein–fatty acid blend films for controlled release of lysozyme

Electrospun zein nanofibers incorporating cyclodextrins

Effect of Gallic acid on mechanical and water barrier properties of zein-oleic acid composite films

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