Release Kinetics of Nisin from Chitosan–Alginate Complex Films

Chandrasekar, Vaishnavi; Coupland, John N.; Anantheswaran, Ramaswamy C.

doi:10.1111/1750-3841.13443

Cited by 28 publications

(15 citation statements)

References 29 publications

(35 reference statements)

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“…CHI is a popular biomaterial for edible film and coating production [ 6 ]. Because of its biocompatibility, antimicrobial activities, low oxygen permeability, and good mechanical properties, CHI has been combined with other hydrocolloids such as starch, gelatin, and alginate to produce blended or multi-layered films [ 7 , 8 , 9 ].…”

Section: Introductionmentioning

confidence: 99%

Development of Burdock Root Inulin/Chitosan Blend Films Containing Oregano and Thyme Essential Oils

Cao

Yang

Song

2018

IJMS

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In this study, inulin (INU) extracted from burdock root was utilized as a new film base material and combined with chitosan (CHI) to prepare composite films. Oregano and thyme essential oils (OT) were incorporated into the INU-CHI film to confer the films with bioactivities. The physical and optical properties as well as antioxidant and antimicrobial activities of the films were evaluated. INU film alone showed poor physical properties. In contrast, the compatibility of INU and CHI demonstrated by the changes in attenuated total reflectance-Fourier transformation infrared spectrum of the INU-CHI film increased tensile strength and elongation at break of the INU film by 8.2- and 3.9-fold, respectively. In addition, water vapor permeability, water solubility, and moisture content of the films decreased proportionally with increasing OT concentration in the INU-CHI film. Incorporation of OT also increased the opacity of a and b values and decreased the L value of the INU-CHI films. All INU-CHI films containing OT exhibited antioxidant and antimicrobial properties. Particularly, the INU-CHI film with 2.0% OT exhibited the highest 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid), 2,2-diphenyl-1-picrylhydrazyl radical scavenging, and antimicrobial activities against four pathogens. Thus, the INU-CHI film containing OT developed in this study might be utilized as an active packaging material in the food industry.

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Section: Introductionmentioning

confidence: 99%

Development of Burdock Root Inulin/Chitosan Blend Films Containing Oregano and Thyme Essential Oils

Cao

Yang

Song

2018

IJMS

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“…8,9 Some antioxidative substances or bioactive compounds such as essential oil, ferulic acid, maqui berry and polyphenols from thyme extracts can be added to the starch-incorporated lm to limit its disadvantages. 7,[10][11][12] Based on the incorporation methods, sustained-release chitosan lm with medicine release or enhanced fresh-keeping ability [13][14][15][16] can be developed. Although the chitosan complex lm can exhibit multiple functions depending upon the incorporation method, the use of chitosan has been seriously restricted because of its poor solubility.…”

Section: Introductionmentioning

confidence: 99%

Incorporated α-amylase and starch in an edible chitosan–procyanidin complex film increased the release amount of procyanidins

et al. 2017

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The inclusion of bioactive substances improved the characteristics of chitosan film or adds new functions to it. Chitosan dissolution is a dilemmatic problem because of the low pH of edible solvents and moderate pH of inedible solvents. Procyanidins, a-amylase and starch were added in the film to enhance the antioxidant ability. Sodium bicarbonate was also employed to adjust the pH of acetic acid solution (solvent). Constituent optimisation of the film-forming solution including the pH of solutions with different amounts of sodium bicarbonate, activity of a-amylase at different pH and addition of appropriate amounts of the three main ingredients was performed. The results showed that the solvent pH should be more than 4. The released amount of reducing sugar (starch hydrolyzate) increased with the increase in the amount of enzyme addition. a-Amylase exhibited a more significant effect than procyanidins, increasing the amount of procyanidins. Full-wavelength scanning, optical test, scanning electron microscopy, X-ray diffraction (XRD), infrared (IR) and differential scanning calorimetry (DSC) were performed to measure the film's characteristics. Even the absorbance peak of procyanidins at 280 nm was increased, following its increasing addition amount; the optical values showed no significant difference. Chitosan film containing starch, a-amylase and procyanidins (CSAPW) had a smoother surface than others. Moreover, the micropores observed on CSAPW can be induced by starch hydrolysis in water immersion. The results of X-ray diffraction (XRD), IR and DSC suggested that water immersion provided the environment for enzymes to hydrolyse the starch. In addition, the hydrolysis function induced the destruction of CSAPW's crystal structure, the change of vibration of hydrogen between chitosan, starch, procyanidins, water and the variation of water evaporation temperature.

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“…However, the lamination of the PLA film to the SSP film significantly decreased the WVP to 0.91 ± 0.16 × 10 −9 g m/m 2 s Pa, which is similar to the PLA film alone. It has been reported that multilayer (PLA/fish skin gelatin/PLA) and bilayer (fish skin gelatin/PLA) films exhibited decreases in the WVP by laminating PLA to gelatin films (Hosseini et al., ; Lee & Song, ). Soy protein isolate and PLA‐laminated films also had decreases in the WVP with increasing PLA concentrations (González & Igarzabal, ; Rhim et al., 2017).…”

Section: Resultsmentioning

confidence: 99%

“…In addition, the SSP and PLA layer were tightly attached without a layer boundary, likely because of the molecular interactions between SSP and PLA (González & Igarzabal, 2013). The molecular interactions between biopolymers could be further elucidated by other methods, such as FTIR and isothermal titration calorimetry (Chandrasekar et al, 2016;Chandrasekar, Coupland, & Anantheswaran, 2017). It has been suggested that the physical properties of biopolymer films can be improved by laminating with PLA (González & Igarzabal, 2013;Rhim, Lee, & Ng, 2007).…”

Section: Physical Propertiesmentioning

confidence: 99%

“…Active and smart packaging technology has been developed as consumers have become more concerned about well-being and convenience (Wyrwa & Barska, 2017). Among such technology, packaging materials containing natural antimicrobial and antioxidant additives have received attention in terms of food safety and quality (Atarés & Chiralt, 2016;Chandrasekar, Coupland, & Anantheswaran, 2016;Suppakul, Miltz, Sonneveld, & Bigger, 2003). In particular, essential oils have desirable effects, even at low concentrations, and can be used in foods (Atarés & Chiralt, 2016).…”

Section: Introductionmentioning

confidence: 99%

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Sea Squirt Shell Protein and Polylactic Acid Laminated Films Containing Cinnamon Bark Essential Oil

Beak

Hyeri

Song

2018

Journal of Food Science

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Release Kinetics of Nisin from Chitosan–Alginate Complex Films

Cited by 28 publications

References 29 publications

Development of Burdock Root Inulin/Chitosan Blend Films Containing Oregano and Thyme Essential Oils

Development of Burdock Root Inulin/Chitosan Blend Films Containing Oregano and Thyme Essential Oils

Incorporated α-amylase and starch in an edible chitosan–procyanidin complex film increased the release amount of procyanidins

Sea Squirt Shell Protein and Polylactic Acid Laminated Films Containing Cinnamon Bark Essential Oil

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