Your search keyword '"Edible Films"' showing total 2,461 results

1. Evaluation of the physicochemical, and mechanical properties of the edible film prepared from soy protein isolate containing the essential oil of the Ziziphorpa capitata.

Author

Razm, Sanaz, Salehi, Esmaeil Ataye, and Arianfar, Akram

Subjects

*EDIBLE coatings, *SOY proteins, *ESSENTIAL oils, *WATER vapor, *TENSILE strength

Abstract

Today, the production of edible and biodegradable films is one of the growing technologies in advanced societies. The use of these coatings is due to the replacement with polymeric materials and increasing the storage time of food. The main purpose of this study was to produce an edible film of soybeans protein isolate (3 to 7%), glycerol (1 to 3%) and Ziziphorpa capitata essential oil (0 to 1%) in order to create better taste and antimicrobial properties. After preparing the film, the physicochemical and mechanical properties of the film (thickness, density, solubility in water and acid, water vapor permeability, transparency, color changes, elongation percentage and tensile strength) were evaluated. After performing the above tests and investigating the effects of independent variables on the dependent variables, the oral film formulation was optimized. The results showed that the optimal formula can be achieved by using 3.54% soy protein isolate, 1% glycerol and 1% cactus essential oil at the level of desirability of 0.624. [ABSTRACT FROM AUTHOR]

Published

2024

2. Development and characterization of active edible film with blueberry residue extract (Vaccinium spp.).

Author

Griep, Patrícia, Ferreira, Janaine, Fischer, Bruno, Fernandes, Ilizandra Aparecida, Cansian, Rogério Luis, Junges, Alexander, and Backes, Geciane Toniazzo

Abstract

Blueberry (Vaccinium spp.) processing produces residues high in antioxidant compounds, such as peels, seeds, and stems, which have the potential to be employed in a variety of products. Using extracts containing bioactive components (e.g., polyphenols and anthocyanins) to produce active edible films is an attractive application. In this regard, the objective of this work was the development and characterization of an active edible film with blueberry residue extract. The extracts were obtained by ultrasound-assisted extraction with 60% hydroethanolic solvent (1:10 m/v of residue) for 25 min at 30 ± 2 °C and 80% of total power (132 W) at 40 kHz. The extract was analyzed for total phenolic compounds and antioxidant activity (DPPH). Cornstarch and glycerol were used to formulate the films, which were characterized according to grammage, thickness, moisture, antioxidant activity, color, and visual parameters. The extraction yield was 207.2 mg/g of residue, the IC50 values ranged from 0.118 to 0.144 mg/mL during 28 days of storage, and the average content of phenolic compounds was 58.18 mg GAE/g dry extract. In the active edible films, the grammage ranged from 0.0131 to 0.0143 g/cm2, the thickness was between 0.15 and 0.23 mm, and the moisture content was from 17.19 to 18.00%. The antioxidant activity of the films containing blueberry residue extract ranged from 52.65 to 76.02%, corresponding to extract concentrations of 0.25 and 2.6 mg/mL of filmogenic solution, respectively. The color parameter showed that when the extract was added, the films became less bright, leaning toward red and yellow. In general, the samples demonstrated good integrity, brightness, and clarity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Integrated Valorization of Fucus spiralis Alga: Polysaccharides and Bioactives for Edible Films and Residues as Biostimulants.

Author

Martins, Valter F. R., Coelho, Marta, Machado, Manuela, Costa, Eduardo, Gomes, Ana M., Poças, Fátima, Sperotto, Raul A., Rosa-Martinez, Elena, Vasconcelos, Marta, Pintado, Manuela E., Morais, Rui M. S. C., and Morais, Alcina M. M. B.

Subjects

EDIBLE coatings, UPLAND rice, CIRCULAR economy, SUSTAINABLE agriculture, FUCUS

Abstract

Fucus spp. seaweeds thrive in the cold temperate waters of the northern hemisphere, specifically in the littoral and sublittoral regions along rocky shorelines. Moreover, they are known to be a rich source of bioactive compounds. This study explored the valorization of Fucus spiralis through the extraction of bioactives and polysaccharides (PSs) for food applications and biostimulant use. The bioactives were extracted using microwave hydrodiffusion and gravity (MHG), where the condition of 300 W for 20 min resulted in the highest total phenolic content and antioxidant activity of the extract. Cellular assays confirmed that the extract, at 0.5 mg/mL, was non-cytotoxic to HaCat cells. Polysaccharides (PSs) were extracted from the remaining biomass. The residue from this second extraction contained 1.5% protein and 13.35% carbohydrates. Additionally, the free amino acids and minerals profiles of both solid residues were determined. An edible film was formulated using alginate (2%), PS-rich Fucus spiralis extract (0.5%), and F. spiralis bioactive-rich extract (0.25%). The film demonstrated significant antioxidant properties, with ABTS and DPPH values of 221.460 ± 10.389 and 186.889 ± 36.062 µM TE/mg film, respectively. It also exhibited notable physical characteristics, including high water vapor permeability (11.15 ± 1.55 g.mm.m−2.day−1.kPa−1) and 100% water solubility. The residues from both extractions of Fucus spiralis exhibited biostimulant (BS) effects on seed germination and seedling growth. BSs with PSs enhanced pea germination by 48%, while BSs without PSs increased the root dry weight of rice and tomato by 53% and up to 176%, respectively, as well as the shoot dry weight by up to 38% and up to 74%, respectively. These findings underscore the potential of Fucus spiralis within the framework of a circular economy, wherein both extracted bioactives and post-extraction by-products can be used for sustainable agriculture and food applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. Advances and recent trends in plant-based materials and edible films: a mini-review.

Author

Olawade, David B., Wada, Ojima Z., Ige, Abimbola O., Liu, Tianyi, and Peng, Chang Boon

Subjects

*EDIBLE coatings, *FOOD packaging, *CIRCULAR economy, *PLASTIC scrap, *PACKAGING materials, *CIRCULAR RNA, *BIODEGRADABLE plastics, *MAKERSPACES

Abstract

Plant-based materials and edible films have emerged as promising alternatives to conventional packaging materials, offering sustainable and environmentally friendly solutions. This mini-review highlights the significance of plant-based materials derived from polysaccharides, proteins, and lipids, showcasing their renewable and biodegradable nature. The properties of edible films, including mechanical strength, barrier properties, optical characteristics, thermal stability, and shelf-life extension, are explored, showcasing their suitability for food packaging and other applications. Moreover, the application of 3D printing technology allows for customized designs and complex geometries, paving the way for personalized nutrition. Functionalization strategies, such as active and intelligent packaging, incorporation of bioactive compounds, and antimicrobial properties, are also discussed, offering additional functionalities and benefits. Challenges and future directions are identified, emphasizing the importance of sustainability, scalability, regulation, and performance optimization. The potential impact of plant-based materials and edible films is highlighted, ranging from reducing reliance on fossil fuels to mitigating plastic waste and promoting a circular economy. In conclusion, plant-based materials and edible films hold great potential in revolutionizing the packaging industry, offering sustainable alternatives to conventional materials. Embracing these innovations will contribute to reducing plastic waste, promoting a circular economy, and creating a sustainable and resilient planet. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Development of Novel Edible Films from Single-Cell Protein Produced by the Biotechnological Valorization of Cheese Whey.

Author

Koukoumaki, Danai Ioanna, Papanikolaou, Seraphim, Ioannou, Zacharias, Gkatzionis, Konstantinos, and Sarris, Dimitris

Subjects

*EDIBLE coatings, *WASTE treatment, *CONTACT angle, *CIRCULAR economy, *PACKAGING materials

Abstract

The production of value-added products from microorganisms, such as single-cell protein (SCP), through the valorization of agricultural byproducts enhances circular economy while offering alternative solutions for waste treatment. In this study, SCP was obtained through the biotechnological treatment and valorization of cheese whey, the main byproduct of the dairy industry, for the development of novel edible films. To the best of the authors' knowledge, this is the first report examining SCP as a biopolymer for edible film production. Specifically, Kluyveromyces marxianus, which has gained QPS and GRAS status, strain EXF-5288 cultivated in deproteinized cheese whey (DCW) lactose (10.0 g/L) in a 3 L fed-batch bioreactor, resulting in a SCPmax of 2.63 g/L with a protein content of up to 49.1% w/w. The addition of increased glycerol concentrations (30, 40, and 50% w/w of dry cells) as plasticizers was examined to develop SCP-based edible films. Regarding physicochemical characterization, increased glycerol concentration significantly increased moisture content (MC%) and solubility (S%), but there was not a significant difference in other parameters. Regarding wettability, SCP-based films could be described as oleophilic surfaces since the degree of oil contact angle (OCA) ranged between 46.7° ± 1.3 and 54.0° ± 0.5. The proposed holistic approach could contribute to the development of sustainable packaging materials through waste treatment. [ABSTRACT FROM AUTHOR]

Published

2024

6. Plant-Based Films for Food Packaging as a Plastic Waste Management Alternative: Potato and Cassava Starch Case.

Author

Arias, Luna Valentina Angulo, Silva, Viviane de Souza, Vieira, Jorge Miguel Magalhães, Fakhouri, Farayde Matta, and de Oliveira, Rafael Augustus

Subjects

*CASSAVA starch, *FOOD packaging, *STARCH, *PLASTICS in packaging, *EDIBLE coatings

Abstract

The escalating environmental impact of plastic packaging waste necessitates sustainable alternatives in food packaging. This study explores starch-based films derived from cassava and potato as viable substitutes, aiming to mitigate plastic pollution and enhance environmental sustainability. Utilizing a casting method, formulations optimized by CCRD were characterized for their physical, physicochemical, and morphological properties. Comprehensive analysis revealed both cassava and potato starch films to exhibit robust structural integrity, high tensile strength (up to 32.6 MPa for cassava starch films), and semi-crystalline morphology. These films demonstrated low water vapor permeability and moderate solubility, akin to conventional low-density polyethylene used in packaging. Differential scanning calorimetry indicated glass transition temperatures between 116.36 °C and 119.35 °C, affirming thermal stability suitable for packaging applications. Scanning electron microscopy confirmed homogeneous film surfaces, with cassava starch films (C4-15) exhibiting superior transparency and uniformity. X-ray diffraction corroborated the films' semi-crystalline nature, unaffected by sorbitol content variations. Despite their mechanical and thermal suitability, further enhancements in thermal degradation resistance are essential for broader thermoprocessing applicability. These findings underscore the potential of starch-based films to be used as lids or other part of a food package, decreasing the plastic dependency in food packaging, contributing decisively to waste reduction and environmental preservation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effect of the Bioprotective Properties of Lactic Acid Bacteria Strains on Quality and Safety of Feta Cheese Stored under Different Conditions.

Author

Doukaki, Angeliki, Papadopoulou, Olga S., Baraki, Antonia, Siapka, Marina, Ntalakas, Ioannis, Tzoumkas, Ioannis, Papadimitriou, Konstantinos, Tassou, Chrysoula, Skandamis, Panagiotis, Nychas, George-John, and Chorianopoulos, Nikos

Subjects

LACTIC acid bacteria, FETA cheese, VACUUM packaging, EDIBLE coatings, MULTISPECTRAL imaging

Abstract

Lately, the inclusion of additional lactic acid bacteria (LAB) strains to cheeses is becoming more popular since they can affect cheese's nutritional, technological, and sensory properties, as well as increase the product's safety. This work studied the effect of Lactiplantibacillus pentosus L33 and Lactiplantibacillus plantarum L125 free cells and supernatants on feta cheese quality and Listeria monocytogenes fate. In addition, rapid and non-invasive techniques such as Fourier transform infrared (FTIR) and multispectral imaging (MSI) analysis were used to classify the cheese samples based on their sensory attributes. Slices of feta cheese were contaminated with 3 log CFU/g of L. monocytogenes, and then the cheese slices were sprayed with (i) free cells of the two strains of the lactic acid bacteria (LAB) in co-culture (F, ~5 log CFU/g), (ii) supernatant of the LAB co-culture (S) and control (C, UHT milk) or wrapped with Na-alginate edible films containing the pellet (cells, FF) or the supernatant (SF) of the LAB strains. Subsequently, samples were stored in air, in brine, or in vacuum at 4 and 10 °C. During storage, microbiological counts, pH, and water activity (aw) were monitored while sensory assessment was conducted. Also, in every sampling point, spectral data were acquired by means of FTIR and MSI techniques. Results showed that the initial microbial population of Feta was ca. 7.6 log CFU/g and consisted of LAB (>7 log CFU/g) and yeast molds in lower levels, while no Enterobacteriaceae were detected. During aerobic, brine, and vacuum storage for both temperatures, pathogen population was slightly postponed for S and F samples and reached lower levels compared to the C ones. The yeast mold population was slightly delayed in brine and vacuum packaging. For aerobic storage at 4 °C, an elongation in the shelf life of F samples by 4 days was observed compared to C and S samples. At 10 °C, the shelf life of both F and S samples was extended by 13 days compared to C samples. FTIR and MSI analyses provided reliable estimations of feta quality using the PLS-DA method, with total accuracy (%) ranging from 65.26 to 84.31 and 60.43 to 89.12, respectively. In conclusion, the application of bioprotective LAB strains can result in the extension of feta's shelf life and provide a mild antimicrobial action against L. monocytogenes and spoilage microbiota. Furthermore, the findings of this study validate the effectiveness of FTIR and MSI techniques, in tandem with data analytics, for the rapid assessment of the quality of feta samples. [ABSTRACT FROM AUTHOR]

Published

2024

8. An Evaluation of the Use of Coffee Silverskin Particles and Extracts as Additives in Wheat Flour/Glucose Mixtures to Produce Bioactive Films for Food Packaging.

Author

Petaloti, Argyri-Ioanna, Valtopoulou, Anastasia, Gkogkou, Christina, and Achilias, Dimitris S.

Subjects

ACTIVE food packaging, FOOD packaging, EDIBLE coatings, COFFEE waste, PACKAGING film, WATER vapor

Abstract

The scientific community's interest in finding an alternative to the term "wastes" for coffee by-products is steadily increasing. The substantial presence of polyphenols, caffeine, and tannins in these wastes could result in the contamination of water and soil, as they exhibit harmful effects on a range of plants, microorganisms, and aquatic organisms. However, these identical antioxidants can extensively be utilized in food packaging applications. In the context of active packaging, the development of bioactive food packaging films based on natural products and coffee industry wastes is of significant importance according to circular economy principles. In this study, the effect of coffee silverskin particles, i.e., waste of the coffee roasting process, and coffee silverskin aqueous extracts on the properties and antioxidant activity of wheat flour-based films with glucose for food packaging applications were evaluated. In addition, chemical structure identification, optical and morphological analysis, color measurements, and physico-chemical characterization of the films were performed, determining their water absorption, film solubility, and degree of swelling. Furthermore, the oxygen and water vapor transition rate and their antioxidant activity were also measured, and it was found that increasing the addition of coffee silverskin particles and aqueous extracts affected the properties of the films. The biocomposite films of wheat flour and glucose with coffee silverskin particles produced in this work exhibited higher tensile stress at break and Young's modulus compared with wheat flour film with no additives. However, a decrease in elongation at break was observed with increasing addition of the silverskin due to the transition from a pure elastomeric material to a crosslinked one following the formation of hydrogen bonds between the additive and the matrix, which was also found in the FTIR spectra. This work offers a new use of wheat flour and coffee silverskin as an inexpensive biocomposite material to produce multifunctional active films for food packaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

9. Impact of Calcium Chloride Addition on the Microstructural and Physicochemical Properties of Pea Protein Isolate-Based Films Plasticized with Glycerol and Sorbitol.

Author

Kowalczyk, Dariusz and Kazimierczak, Waldemar

Subjects

PEA proteins, EDIBLE coatings, WATER vapor, LIGHT transmission, IMPACT (Mechanics)

Abstract

Ca2+ can boost protein-protein interactions and, if present at an appropriate level, can potentially improve some physicochemical properties of protein-based gels and films. This study aimed to determine the effects of CaCl2 (0%–0.05% w/w) on the microstructural, optical, water affinity, and mechanical characteristics of glycerol (Gly)- and sorbitol (Sor)-plasticized pea protein isolate (PPI)-based films. CaCl2 caused darkening and a color shift of the films from yellow to yellow-green. Additionally, decreased light transmission, particularly in the UV range, acidification, and reduced moisture content were observed. CaCl2 decreased the water vapor permeability of the Gly plasticized film by an average of 20% with no effect on the Sor-plasticized film. All films were completely soluble in water. CaCl2 negatively impacted the mechanical integrity of the films, reducing the tensile strength of the Gly- and Sor-plasticized films by ~16% and 14%–37%, respectively. Further increases in CaCl2 content (0.1% and 0.2% w/w) led to concentration-dependent microvoids resulting from protein over-crosslinking and/or coagulation. In summary, the incorporation of CaCl2 into PPI-based films did not provide significant benefits and actually worsened key properties, such as transparency and mechanical strength. The type of plasticizer influenced how CaCl2 affected some properties of the PPI-based film. [ABSTRACT FROM AUTHOR]

Published

2024

10. The Development of Novel Edible Films from Single-Cell Protein Produced by the Biotechnological Valorization of Cheese Whey

Author

Danai Ioanna Koukoumaki, Seraphim Papanikolaou, Zacharias Ioannou, Konstantinos Gkatzionis, and Dimitris Sarris

Subjects

fed-batch, bioprocess, cheese whey valorization, edible films, sustainable packaging, single-cell protein, Microbiology, QR1-502

Abstract

The production of value-added products from microorganisms, such as single-cell protein (SCP), through the valorization of agricultural byproducts enhances circular economy while offering alternative solutions for waste treatment. In this study, SCP was obtained through the biotechnological treatment and valorization of cheese whey, the main byproduct of the dairy industry, for the development of novel edible films. To the best of the authors’ knowledge, this is the first report examining SCP as a biopolymer for edible film production. Specifically, Kluyveromyces marxianus, which has gained QPS and GRAS status, strain EXF-5288 cultivated in deproteinized cheese whey (DCW) lactose (10.0 g/L) in a 3 L fed-batch bioreactor, resulting in a SCPmax of 2.63 g/L with a protein content of up to 49.1% w/w. The addition of increased glycerol concentrations (30, 40, and 50% w/w of dry cells) as plasticizers was examined to develop SCP-based edible films. Regarding physicochemical characterization, increased glycerol concentration significantly increased moisture content (MC%) and solubility (S%), but there was not a significant difference in other parameters. Regarding wettability, SCP-based films could be described as oleophilic surfaces since the degree of oil contact angle (OCA) ranged between 46.7° ± 1.3 and 54.0° ± 0.5. The proposed holistic approach could contribute to the development of sustainable packaging materials through waste treatment.

Published

2024

11. A Review of Recent Developments in Edible Films and Coatings-Focus on Whey-Based Materials.

Author

Pires, Arona Figueroa, Díaz, Olga, Cobos, Angel, and Pereira, Carlos Dias

Subjects

EDIBLE coatings, FOOD packaging, MOLECULAR structure, FOOD preservation, PACKAGING materials, WHEY proteins

Abstract

Packaging for food products is particularly important to preserve product quality and shelf life. The most used materials for food packaging are plastic, glass, metal, and paper. Plastic films produced based on petroleum are widely used for packaging because they have good mechanical properties and help preserve the characteristics of food. However, environmental concerns are leading the trend towards biopolymers. Films and coatings based on biopolymers have been extensively studied in recent years, as they cause less impact on the environment, can be obtained from renewable sources or by-products, are relatively abundant, have a good coating and film-forming capacity, are biodegradable and have nutritional properties that can be beneficial to human health. Whey protein-based films have demonstrated good mechanical resistance and a good barrier to gases when at low relative humidity levels, in addition to demonstrating an excellent barrier to aromatic compounds and especially oils. The use of whey proteins for films or coatings has been extensively studied, as these proteins are edible, have high nutritional value, and are biodegradable. Thus, the main objective of this document was to review new methodologies to improve the physicochemical properties of whey protein films and coatings. Importance will also be given to the combinations of whey proteins with other polymers and the development of new techniques that allow the manipulation of structures at a molecular level. The controlled release and mass transfer of new biomaterials and the improvement of the design of films and packaging materials with the desired functional properties can increase the quality of the films and, consequently, broaden their applications. [ABSTRACT FROM AUTHOR]

Published

2024

12. Synthesis of clove essential oil-loaded chitosan-based edible films with different plasticizers.

Author

Zsivanovits, G., Milenkova, S., Marudova, M., and Nikolova, K.

Abstract

Purpose: Chitosan is a natural polysaccharide known for its excellent biodegradable, barrier and antimicrobial properties. Therefore, it is often used in the preparation of edible films. A vast variety of essential oils have been incorporated into the films to enhance their antimicrobial and antioxidant properties. Despite all the positive effects of chitosan in its application as food packaging, its films are fragile and brittle. Therefore, plasticizers are usually added to improve the chitosan's mechanical properties. The present article investigates the effect of different plasticizers, namely Glycerol, Polyethylene glycol, and Polyvinyl alcohol, on the physical characteristics of clove essential oil-loaded chitosan film (chitosan/CEO). Design/methodology/approach: Chitosan/CEO films are prepared using the casting method. The intermolecular interactions are determined by Fourier-transform infrared spectroscopy (FT-IR), the surface morphology is observed by scanning electron microscopy (SEM), and the mechanical properties are tested in tensile and puncture modes. The thermal stability and the compound physical state are investigated using Differential Scanning Calorimetry. Water adsorption isotherms and water vapour permeability are also determined. Findings: The addition of plasticizer is found to have a beneficial effect on the mechanical properties of chitosan films and does not change the hydrophilic-hydrophobic balance, colour parameters, and thermal stability drastically. In such a way, the plasticized films are suitable for food packaging. Practical implications: Future research will investigate the effect of other environmentally friendly plasticizers on edible films made from chitosan/essential oils. Originality/value: Based on our knowledge, the present research investigates the effect of different plasticizers on the chitosan/CEO edible films for the first time. [ABSTRACT FROM AUTHOR]

Published

2024

13. JESTIVI OMOTAČI - ODRŽIVI TRETMAN POSLIJE BERBE VOĆA I POVRĆA.

Author

Bandić, Luna Maslov, Fuka, Mirna Mrkonjić, Tanuwidjaja, Irina, and Jurić, S.

Subjects

EDIBLE coatings, SUSTAINABILITY, WATER purification, PRODUCT quality, FRUIT

Abstract

Copyright of Agronomy Journal / Agronomski Glasnik (0002-1954) is the property of Croatian Society of Agronomists and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

14. Development of bioactive films loaded with extract and polysaccharide of Pinus brutia bark.

Author

Şahin, Saliha, Eyüboğlu, Serenay, Karkar, Büşra, and Ata, Gül Dinç

Subjects

*POLYSACCHARIDES, *EDIBLE coatings, *PINE, *PHENOLIC acids, *HIGH performance liquid chromatography, *YOUNG'S modulus, *ETHANOL

Abstract

Society's interest in natural and clean products in many areas, such as food and cosmetics, has increased considerably. It has led to the development of new techniques in the packaging of products so that the wastes from the preferred products can be recycled. In this context, Pinus brutia bark was preferred within the scope of the study to transform natural wastes into functional components and use them as packaging material. P. brutia bark (PBB) samples were collected from Bursa, Turkey. PBB samples were ultrasonically extracted using various solvents (acetone, butanol, ethanol, ethyl acetate, hexane, methanol, petroleum ether, and water) and a solvent‐acidic hydrolysis system. The phenolic content profile of PBB samples was determined using high‐performance liquid chromatography with diode‐array detection, and total flavonoid content, antioxidant capacity, and total phenolic content were determined. Chitosan‐polyvinyl alcohol (CS‐PVA) films loaded with polysaccharides and containing methanolic extract were developed. The physical, chemical, and mechanical properties of the films were characterized. It is known that the thickness of the films determines the mechanical properties required to maintain the integrity of the packaging during storage and transport. From the results of the study, it was concluded that the elongation at break value was higher in CS‐PVA‐PBB‐M films (111.08% ± 10.46%), Young's modulus (31.74 ± 21.37 N/mm2), and tensile strength (3.01 ± 0.50 N/mm2) values were higher in CS‐PVA films. In this case, it was concluded that adding proanthocyanidin to edible films gives flexibility to the films. [ABSTRACT FROM AUTHOR]

Published

2024

15. Green Approach for Biopolymer-Based Food Packaging Films Enhanced by Zinc Oxide Nanoparticles

Author

Przybyszewska, Adrianna, Galus, Sabina, Prasad, Ram, Series Editor, Abd-Elsalam, Kamel A., editor, Hashim, Ayat F., editor, Ahmed, Farah K., editor, and Thomas, Sabu, editor

Published

2024

16. Modelling and Dimensioning of Polysaccharide-Based Edible Films

Author

Makeri, Mohammad U., Amin, Tawheed, editor, Naik, H. R., editor, Hussain, Syed Zameer, editor, and Wani, Sajad Mohd, editor

Published

2024

17. Pectin and Pectin Derivative-Based Films

Author

Kaur, Kamaljit, Kaul, Shivani, Amin, Tawheed, editor, Naik, H. R., editor, Hussain, Syed Zameer, editor, and Wani, Sajad Mohd, editor

Published

2024

18. Film-Based Packaging for Food Safety and Preservation: Issues and Perspectives

Author

Junaid, Pir Mohammad, Saikumar, Akuleti, Nazim, Mohd Shazeb, Zaidi, Sadaf, Badwaik, Laxmikant Shivnath, Ahmad, Faizan, Ahmad, Faizan, editor, Mohammad, Zahra H., editor, Ibrahim, Salam A., editor, and Zaidi, Sadaf, editor

Published

2024

19. Preparation of Edible Film Containing Sesame Oleosomes and Its Application in Strawberry Preservation

Author

QIN Chenqiang, LI Fangshu, FU Rao, MEI Yaxin, PENG Yu, LI Mo, NI Yuanying, WEN Xin

Subjects

sesame, oleosome, edible films, strawberry preservation, Food processing and manufacture, TP368-456

Abstract

This study investigated the effects of adding different amounts of sesame oleosomes on the properties of polysaccharide edible films, and explored the application of the film incorporated with sesame oleosomes in strawberry preservation in terms of sensory evaluation and physicochemical indexes. The results showed that the extracted sesame oleosomes contained 72.3% fat, which could maintain good oxidative stability for 8 days. Adding an appropriate amount of sesame oleosomes to edible films could effectively improve the softness, water vapor barrier, solubility and elongation. However, adding excess sesame oleosomes (≥ 5.6%) decreased the mechanical properties and transparency. Taken together, the optimal proportion of oleosome addition was 1.2%. Compared with the blank and oleosome-free control groups, the oleosome-incorporated film effectively delayed the rotting and softening of strawberry fruits as well as the decrease in moisture, soluble solids and titratable acids, and extended the shelf life by at least 1 day. This study showed that a certain amount of oleosomes can be used as lipid derivatives in lipid-based edible films to extend the shelf life of fruits and vegetables.

Published

2024

20. Edible microbial cellulose-based antimicrobial coatings and films containing clove extract

Author

Mazia Ahmed, Pinki Saini, Unaiza Iqbal, and Khushbu Sahu

Subjects

Polysaccharide, Clove extract, Antimicrobial, Microbial cellulose, Coating, Edible films, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Abstract Recently, microbial cellulose-based coatings and films have attracted substantial attention because of their promising uses in numerous fields, such as food packaging. The present work was designed to synthesize active microbial cellulose-based coatings and films with a comprehensive investigation of their antimicrobial and structural properties. Microbial cellulose was synthesized by using a gram-negative bacterium called Acetobacter aceti. The produced microbial cellulose was mixed with sodium alginate, chitosan and starch to obtain two different composite solutions, i.e., microbial cellulose + starch + chitosan (MSC) and microbial cellulose + starch + sodium alginate (MSS). The antimicrobial properties were achieved by incorporating four different concentrations of clove extract into the composite solutions. The resulting composite solutions were tested against S. aureus, Shigella, Salmonella, and E. coli through the agar diffusion assay method. The clove extract was found to be effective in inhibiting the growth of these pathogens, as a clear zone of inhibition was observed at all clove extract concentrations, with a maximum zone of inhibition of 4.0 ± 0.05 cm on E. coli for the MSC solution incorporated with 4% clove extract. The best antimicrobial solutions found were then casted into films by pouring the solutions into petri dishes and drying at 50 °C in a tray drier. The antimicrobial activity was again evaluated for the films. The results indicated that MSC 3% showed a greater zone of inhibition against all pathogens (1.7 ± 0.18 cm). Furthermore, structural and thermal analyses of the formed films were conducted. The results indicated distinctive antimicrobial and structural characteristics of the films. Graphical Abstract

Published

2024

21. Chitosan Coating with Rosemary Extract Increases Shelf Life and Reduces Water Losses from Beef.

Author

de Lima, Allison F., Leite, Ricardo H. de L., Pereira, Marília W. F., Silva, Maria R. L., de Araújo, Thiago L. A. C., de Lima Júnior, Dorgival M., Gomes, Marina de N. B., and Lima, Patrícia de O.

Subjects

EDIBLE coatings, CHITOSAN, ROSEMARY, SURFACE coatings, BEEF quality, EXTRACTS, ERECTOR spinae muscles

Abstract

This study aimed to evaluate the influence of films based on chitosan and rosemary extract on the physicochemical, microbiological, and oxidative characteristics of beef. Refrigerated steaks of Longissimus dorsi were distributed in a factorial arrangement (4 × 4) into four treatments consisting of four edible films (control; chitosan; chitosan + 4% rosemary extract; and chitosan + 8% rosemary extract) and four days of aging (0, 2, 4, and 8 days). Incorporating 4% or 8% rosemary extract into the chitosan film improved the characteristics of the films in terms of moisture absorption and elasticity. The edible coatings with chitosan and rosemary extract and the different days of aging increased the tenderness and decreased the lipid oxidation of beef. In addition, the chitosan films containing rosemary extract increased the water-holding capacity and decreased the cooking losses of beef. The films containing 4% and 8% rosemary extract decreased the development of mesophilic and psychrotrophic bacteria and Staphylococcus ssp. in beef. We recommend incorporating 4% rosemary extract into chitosan-based coatings to preserve the quality of refrigerated beef. [ABSTRACT FROM AUTHOR]

Published

2024

22. Effect of Drying Conditions and Jojoba Oil Incorporation on the Selected Physical Properties of Hydrogel Whey Protein-Based Edible Films.

Author

Galus, Sabina, Karwacka, Magdalena, Ciurzyńska, Agnieszka, and Janowicz, Monika

Subjects

JOJOBA, EDIBLE coatings, HYDROGELS, FOOD packaging, PACKAGING materials

Abstract

Edible hydrogel coatings or films in comparison to conventional food packaging materials are characterized as thin layers obtained from biopolymers that can be applied or enveloped onto the surface of food products. The use of lipid-containing hydrogel packaging materials, primarily as edible protective coatings for food applications, is recognized for their excellent barrier capacity against water vapor during storage. With the high brittleness of waxes and the oxidation of different fats or oils, highly stable agents are desirable. Jojoba oil obtained from the jojoba shrub is an ester of long-chain fatty acids and monovalent, long-chain alcohols, which contains natural oxidants α, β, and δ tocopherols; therefore, it is resistant to oxidation and shows high thermal stability. The production of hydrogel films and coatings involves solvent evaporation, which may occur in ambient or controlled drying conditions. The study aimed to determine the effect of drying conditions (temperature from 20 to 70 °C and relative humidity from 30 to 70%) and jojoba oil addition at the concentrations of 0, 0.5, 1.0, 1.5, and 2.0% on the selected physical properties of hydrogel edible films based on whey protein isolate. Homogenization resulted in stable, film-forming emulsions with bimodal lipid droplet distribution and a particle size close to 3 and 45 µm. When higher drying temperatures were used, the drying time was much shorter (minimum 2 h for temperature of 70 °C and relative humidity of 30%) and a more compact structure, lower water content (12.00–13.68%), and better mechanical resistance (3.48–3.93 MPa) of hydrogel whey protein films were observed. The optimal conditions for drying hydrogel whey protein films are a temperature of 50 °C and an air humidity of 30% over 3 h. Increasing the content of jojoba oil caused noticeable color changes (total color difference increased from 2.00 to 2.43 at 20 °C and from 2.58 to 3.04 at 70 °C), improved mechanical elasticity (the highest at 60 °C from 48.4 to 101.1%), and reduced water vapor permeability (the highest at 70 °C from 9.00·10−10 to 6.35·10−10 g/m·s·Pa) of the analyzed films. The observations of scanning electron micrographs showed the heterogeneity of the film surface and irregular distribution of lipid droplets in the film matrix. [ABSTRACT FROM AUTHOR]

Published

2024

23. Recent trends in food and dietary applications of flaxseed mucilage: a mini review.

Author

Lorenc, František, Jarošová, Markéta, Bedrníček, Jan, Smetana, Pavel, and Bárta, Jan

Subjects

*MUCILAGE, *GUMS & resins, *FLAXSEED, *DIETARY bioactive peptides, *FOOD quality, *MONOSACCHARIDES, *PREBIOTICS

Abstract

Summary: Flaxseed mucilage (FM) is a hydrocolloid heteropolysaccharide comprised of a variable ratio of neutral and acidic monosaccharides. It possesses emulsifying, thickening, gelling and water−/oil‐binding properties. Due to these properties, it is highly applicable in foods as a functional agent to improve their physical and sensory parameters, thus representing an alternative to common plant gums. The most recent research is focused on the potential of FM for food treatments as a functional component. FM is usable in coatings and films. Combining with chitosan, bioactive proteins and peptides, or other compounds improves the quality of food products. FM may serve as a structural agent of novel gel materials, like oleogels, cryogels and aerogels. It can also be utilised within dietary applications to encapsulate living probiotics or bioactive compounds or serve as a prebiotic agent. Complexing of FM with proteins can lead to the improvement of their functional properties. The versatility of FM and unique properties, on the other hand, reveal its potential for further study and predetermine its use in a broad range of food and related applications in the future. [ABSTRACT FROM AUTHOR]

Published

2024

24. Gelatin/calcium‐caseinate films loaded with petitgrain essential oil for sustainable food packaging.

Author

Bhatia, Saurabh, Shah, Yasir Abbas, Al‐Harrasi, Ahmed, Jawad, Muhammad, Dıblan, Sevgin, Khan, Talha Shireen, Koca, Esra, and Aydemir, Levent Yurdaer

Subjects

*FOOD packaging, *ESSENTIAL oils, *SODIUM caseinate, *WATER vapor, *EDIBLE coatings, *INTERMOLECULAR interactions

Abstract

Summary: This research focuses on the development and assessment of films composed of gelatin (GE) and calcium caseinate (CC), loaded with varying concentrations of petitgrain essential oil (PEO). A comprehensive assessment of the resulting films was conducted with a focus on the antioxidant, antibacterial, and physicochemical attributes. GCMS analysis identified the primary constituents of PEO, including linalyl acetate, linalool, α‐pinene, α‐terpineol, limonene, β‐myrcene, geranyl acetate, and neryl acetate. The antioxidant capacity of GE‐CC films increased significantly with increasing PEO concentration, as evidenced by DPPH and ABTS assays. Simultaneously, increased PEO concentration led to increased thickness, water vapour permeability (WVP), elongation at break (EAB), and water solubility (WS) in the active films while reducing moisture content (MC) and tensile strength (TS). In terms of optical characteristics, the transparency of the films decreased, while the b* (yellowness) and ΔE (total colour variation) values increased upon oil incorporation. The presence of intermolecular interactions between the polymers and the oil was confirmed through FTIR and morphological characteristics studied by SEM. The addition of PEO to the films resulted in improved thermal resistance against degradation, as observed in the thermo‐gravimetric analysis (TGA). Moreover, these active films showed potent antimicrobial activity against C. albicans and P. aeruginosa. In summary, this study underscores the suitability of GE‐CC films containing PEO for food packaging purposes, highlighting their functional characteristics and environmentally friendly nature. [ABSTRACT FROM AUTHOR]

Published

2024

25. Development and Characteristics of Protein Edible Film Derived from Pork Gelatin and Beef Broth.

Author

Ciurzyńska, Agnieszka, Janowicz, Monika, Karwacka, Magdalena, Nowacka, Małgorzata, and Galus, Sabina

Subjects

*EDIBLE coatings, *COOKING stocks, *PLASTICS in packaging, *FOOD packaging, *GELATIN, *PORK, *TENSILE strength

Abstract

The aim of this work was to develop edible films derived from gelatin and beef broth and to analyze the physical properties of the output products. The presented research is important from the point of view of searching for food packaging solutions that may replace traditionally used plastic packaging. This study's conceptual framework is in line with the trend of sustainable development and zero waste. This study was conducted to develop a recipe for edible films derived from beef gelatin with gelatin concentrations at 4%, 8%, and 12% enriched with additions of beef broth in amounts of 25, 50, 75, and 100%. Selected physical properties of the output edible films were examined in terms of thickness, swelling in water, opacity, water content, water solubility, structure, and mechanical properties. The conducted research made it plausible to conclude that the addition of broth has a positive effect on the extensibility of the edible films and the other physical properties under consideration, especially on decreasing the film thickness, which was found to vary between 50.2 and 191.6 µm. When gelatin and broth were added at low concentrations, the tensile strength of the films increased, and subsequently decreased; however, an opposite effect was observed for elongation at break. The increased broth concentration caused the film opacity to increase from 0.39 to 4.54 A/mm and from 0.18 to 1.04 A/mm with gelatin concentrations of 4% and 12%, respectively. The water solubility of the gelatin films decreased as a result of the broth addition. However, it was noticed that increasing the content of broth caused the water solubility to increase in the tested films. The mere presence of broth in the gelatin films changed the microstructure of the films and also made them thinner. [ABSTRACT FROM AUTHOR]

Published

2024

26. Cellulose and Its Derivatives in Food Industry.

Author

Biglari, Nazila and Serajian, Azam

Subjects

FOOD additives, EDIBLE coatings, BIOPOLYMERS, AGRICULTURAL wastes, FOOD preservation, BIODEGRADABLE plastics

Abstract

The increasing use of natural and biodegradable polymers, particularly cellulose and its derivatives in food industry to replace petroleum-based plastics is demanded. Cellulose is abundant, cost-effective, and it is sourced from bio-wastes and agricultural wastes that makes it a sustainable alternative. Despite its promising mechanical and barrier properties, cellulose high hydrophilicity limits its use. Chemical modification can enhance its mechanical property, thermal stability, and biodegradability those recommend cellulose for food industry as raw food materials, additive ingredients, packaging materials, delivery system, and for enzyme and cell immobilization. This review covers the significance, function, and attributes of cellulose and its derivatives in food industry. [ABSTRACT FROM AUTHOR]

Published

2024

27. 芝麻油脂体可食用膜的制备及其 在草莓保鲜中的应用.

Author

秦琛强, 李方束, 傅 娆, 梅雅欣, 彭 郁, 李 茉, 倪元颖, and 温 馨

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

28. Application of Plant Oils as Functional Additives in Edible Films and Coatings for Food Packaging: A Review.

Author

Moghadas, Hooman Chodar, Chauhan, Ruchi, and Smith, J. Scott

Subjects

FOOD packaging, EDIBLE coatings, VEGETABLE oils, PACKAGING materials, FOOD preservation, ADDITIVES

Abstract

Increasing environmental concerns over using petroleum-based packaging materials in the food industry have encouraged researchers to produce edible food packaging materials from renewable sources. Biopolymer-based edible films and coatings can be implemented as bio-based packaging materials for prolonging the shelf life of food products. However, poor mechanical characteristics and high permeability for water vapor limit their practical applications. In this regard, plant oils (POs) as natural additives have a high potential to overcome certain shortcomings related to the functionality of edible packaging materials. In this paper, a summary of the effects of Pos as natural additives on different properties of edible films and coatings is presented. Moreover, the application of edible films and coatings containing POs for the preservation of different food products is also discussed. It has been found that incorporation of POs could result in improvements in packaging's barrier, antioxidant, and antimicrobial properties. Furthermore, the incorporation of POs could significantly improve the performance of edible packaging materials in preserving the quality attributes of various food products. Overall, the current review highlights the potential of POs as natural additives for application in edible food packaging materials. [ABSTRACT FROM AUTHOR]

Published

2024

29. Bacillus subtilis Edible Films for Strawberry Preservation: Antifungal Efficacy and Quality at Varied Temperatures.

Author

Torres-García, Jesús Rubén, Leonardo-Elias, Arnulfo, Angoa-Pérez, María Valentina, Villar-Luna, Edgar, Arias-Martínez, Sergio, Oyoque-Salcedo, Guadalupe, and Oregel-Zamudio, Ernesto

Subjects

EDIBLE coatings, BACILLUS subtilis, FOOD preservation, STRAWBERRIES, PERISHABLE goods, CONSUMER preferences

Abstract

Fungal infestations, particularly from Rhizopus stolonifer, pose significant post-harvest challenges for strawberries, compromising their shelf life and quality. Traditional preservation methods, including refrigeration, offer limited protection against such pathogens. This study introduces an innovative approach, utilizing edible films infused with Bacillus subtilis strains GOS 01 B-67748 and HFC 103, known for their antifungal properties. We demonstrate that these bioactive films not only inhibit fungal growth effectively but also enhance the preservation of strawberries at varying temperatures. The inclusion of Bacillus subtilis in edible films represents a significant advancement in extending the viability of strawberries, surpassing the efficacy of conventional methods. Our findings suggest a promising avenue for natural, safe food preservation techniques, aligning with current consumer preferences for additive-free products. This research contributes to the broader understanding of microbial-based food preservation strategies, offering potential applications across a range of perishable commodities. [ABSTRACT FROM AUTHOR]

Published

2024

30. Fabrication, characterization and antioxidant activities of pectin and gelatin based edible film loaded with Citrus reticulata L. essential oil.

Author

Bhatia, Saurabh, Al-Harrasi, Ahmed, Ullah, Sana, Shah, Yasir Abbas, Al-Azri, Mohammed Said, Jawad, Muhammad, Anwer, Md Khalid, Aldawsari, Mohammed F., Al-Jassasi, Mohammed Sulaiyam, Koca, Esra, and Aydemir, Levent Yurdaer

Subjects

PECTINS, EDIBLE coatings, MANDARIN orange, ESSENTIAL oils, FOURIER transform infrared spectroscopy, GELATIN

Abstract

In the present work, pectin and gelatin-based edible films (EFs) loaded with Citrus reticulata L. (tangerine) essential oil were fabricated and evaluated for their potential application in food packaging. GC–MS analysis and physiochemical, mechanical, and antioxidant analysis of the synthesized edible films and oil extract were carried out. GC–MS analysis of the tangerine essential oil revealed the presence of around 40 different chemical constituents, and among them, limonene (43.85%), linalyl acetate (19.16%), linalool (18.38%), and beta-Myrcene (3.41%) were found as the major constituent. Fourier transform infrared spectroscopy showed the interaction between the functional groups of the film components. Mechanical parameter assessment showed that the tensile strength of the edible film increases and elongation at break values decreases with oil addition. The thickness of the EFs increased with oil addition, while water solubility, water vapor permeability, and transparency decreased. In antioxidant potential assessment assays, maximum activity (DPPH• and ABTS•+ reducing potential) was reported for edible film samples containing a maximum amount (60 μL) of tangerine oil. We found that pectin and gelatin-based edible films loaded with tangerine essential oil exhibit better characteristics and could be used as a food packaging material. Practical Applications This study presents a potentially effective method for producing edible films using pectin and gelatin composite, that have been incorporated with tangerine essential oil. These films demonstrate superior properties and may serve as an effective choice for food packaging material. [ABSTRACT FROM AUTHOR]

Published

2024

31. Quick-dissolvable heat-sealable edible films made from orange peel powder and guar gum for instant beverage packaging.

Author

YAZICIOĞLU, Nalan and SİYASAL, Kübra

Subjects

MATERIALS testing, LIGHT, OXYGEN, DATA analysis, FOOD packaging, ULTRAVIOLET radiation, DESCRIPTIVE statistics, PLANT extracts, GUMS & resins, HEAT, ANALYSIS of variance, STATISTICS, COLOR, FOOD storage, PLASTICIZERS, ORANGES, BEVERAGES, EVALUATION

Abstract

Water-soluble films provide convenience, notably in scenarios requiring single-dose or on-the-go packaging, such as dissolvable sachets for individual servings of beverages, effectively minimising excess packaging waste. The main aim of this study was to create edible films that are watersoluble and heat-sealable by utilising a blend of guar gum and orange peel powder. The study investigated the impact of varying orange peel powder content on guar gum edible films’ properties. Physical (thickness, moisture content, swelling index, density, solubility), optical (colour, opacity, light transmittance), and barrier (water vapour transmission rate, water vapour permeability) properties of the films with different concentrations of orange peel powder were evaluated. Moreover, within the scope of utilising these films for packaging dry instant beverages, they were heat-sealed to form pouches and then filled with dry orange peel powder to evaluate their ability to dissolve instantly. As the orange peel powder content in the films increased, thickness, density, and colour parameters such as redness, yellowness, ΔE, chroma, hue angle, and browning index also increased, resulting in more thick, vivid colours and significant colour changes. Conversely, moisture content, swelling index, and light transmittance decreased with higher orange peel levels, impacting the films' textural properties and rendering them more opaque for better protection against light, oxygen, and heat, essential for extending food product shelf life. Moreover, solubility increased as the orange peel content increased, indicating greater water interaction facilitated by the extract's potential plasticising effect. [ABSTRACT FROM AUTHOR]

Published

2024

32. Antimicrobial activity, mechanical and thermal properties of cassava starch films incorporated with beeswax and propolis.

Author

Betancur-D´Ambrosio, María Carolina, Pérez-Cervera, Carmen Elena, Barrera-Martinez, Cindy, and Andrade-Pizarro, Ricardo

Abstract

Edible films can be formed from different polymeric compounds. The use of starch has gained extra value; because it can be used in combination with plasticizers and lipids, helping to improve mechanical properties. Besides, with the addition of an antimicrobial, the function of these films can be extended. The objective of this research was to evaluate the effect of native cassava starch, beeswax and ethanolic propolis extract (EPE) on the mechanical, thermal and inhibitory properties against the Aspergillus niger fungus. An experimental Box-Behnken design with three factors: cassava starch concentration (2–4%w/v), beeswax (0.5–0.9%w/w) and EPE (1–4%v/w) was used. The films obtained were opaque and with low mechanical properties. EPE concentration affected tensile strength, elongation at break (EB) and Young's modulus (YM), and cassava starch content only affected EB and YM. In thermal properties, the weight loss was affected by the cassava starch-beeswax interaction, where the most loss occurred at high levels of these factors in the temperature range of 200–360 °C. The films reduced the growth of the Aspergillus niger by 51%, where the beeswax-EPE interaction had a significant positive effect. The characteristics of the developed films suggest that they would be more acceptable as fruit and vegetable coatings. [ABSTRACT FROM AUTHOR]

Published

2024

33. Edible microbial cellulose-based antimicrobial coatings and films containing clove extract.

Author

Ahmed, Mazia, Saini, Pinki, Iqbal, Unaiza, and Sahu, Khushbu

Subjects

EDIBLE coatings, ESCHERICHIA coli, SURFACE coatings, FOOD packaging, GRAM-negative bacteria, SODIUM alginate

Abstract

Recently, microbial cellulose-based coatings and films have attracted substantial attention because of their promising uses in numerous fields, such as food packaging. The present work was designed to synthesize active microbial cellulose-based coatings and films with a comprehensive investigation of their antimicrobial and structural properties. Microbial cellulose was synthesized by using a gram-negative bacterium called Acetobacter aceti. The produced microbial cellulose was mixed with sodium alginate, chitosan and starch to obtain two different composite solutions, i.e., microbial cellulose + starch + chitosan (MSC) and microbial cellulose + starch + sodium alginate (MSS). The antimicrobial properties were achieved by incorporating four different concentrations of clove extract into the composite solutions. The resulting composite solutions were tested against S. aureus, Shigella, Salmonella, and E. coli through the agar diffusion assay method. The clove extract was found to be effective in inhibiting the growth of these pathogens, as a clear zone of inhibition was observed at all clove extract concentrations, with a maximum zone of inhibition of 4.0 ± 0.05 cm on E. coli for the MSC solution incorporated with 4% clove extract. The best antimicrobial solutions found were then casted into films by pouring the solutions into petri dishes and drying at 50 °C in a tray drier. The antimicrobial activity was again evaluated for the films. The results indicated that MSC 3% showed a greater zone of inhibition against all pathogens (1.7 ± 0.18 cm). Furthermore, structural and thermal analyses of the formed films were conducted. The results indicated distinctive antimicrobial and structural characteristics of the films. [ABSTRACT FROM AUTHOR]

Published

2024

34. The effect of citric acid concentrations on the mechanical, thermal, and structural properties of starch edible films.

Author

Chi, Yuan, Maitland, Evita, and Pascall, Melvin A.

Subjects

*CITRIC acid, *EDIBLE coatings, *ATTENUATED total reflectance, *STARCH, *FOURIER transform infrared spectroscopy, *THERMOGRAVIMETRY

Abstract

Summary: This study investigated the effects of citric acid on the properties of edible tapioca starch films plasticised with glycerol. These films were formed using 5% tapioca (w/w of water); 1%, 3%, 5%, 7% and 9% citric acid (w/w of starch); and 2.2% glycerol (w/w of water). Native starch films formed using 5% tapioca and 2.2% glycerol were used as the control. The properties tested included the degree of crosslinking, thermal stability, crystallinity and mechanical properties. These were evaluated using Attenuated Total Reflection Fourier Transform Infrared Spectroscopy (ATR‐FTIR), X‐Ray diffraction (XRD), thermal gravimetric analysis (TGA) and tensile profile analysis (TPA). The FTIR results provided information about the nature of the crosslinking in the films, while TGA showed that increasing the citric acid concentration reduced the physical decomposition temperature of the materials. Films containing 9% citric acid had the highest degree of esterification and crosslinking, while those containing 7% citric acid had the lowest heat‐related weight loss that correlated with the degree of crosslinking. The weight loss among all six samples was the greatest in the temperature range 260 °C–350 °C where a total of 60% weight loss occurred. The XRD results showed that films containing 3% citric acid had the lowest crystallinity while the native starch films had the highest crystallinity. The TPA analyses showed that films containing 5% citric acid had the greatest influence on improving the tensile strength and elastic modulus, while also having the best impact on lowering the elongation. Tensile strength values recorded for films containing 0%, 1%, 3%, 5%, 7% and 9% citric acid were 5.327, 7.813, 8.688, 12.855, 14.549 and 11.614 MPa. Similarly, when citric acid concentration increased from 3% to 5%, the elastic modulus significantly increased from 831.058 to 2255.691 MPa. This study demonstrated that the physicochemical properties of tapioca starch‐based films could be modified by the incorporation of citric acid. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Effect of Curcumin and Cornstarch Biopolymers on the Shelf Life of Fresh Cheese: Physicomechanical and Antimicrobial Properties.

Author

Almajidi, Yasir Qasim, Lup, Andrew Ng Kay, Ramírez‐Coronel, Andrés Alexis, Almulla, Abbas F., Alsudani, Ali, Kadhm, Mustafa Salam, Alqurashi, Yaser E., and Obaid, Rasha Fadhel

Subjects

*EDIBLE coatings, *CORNSTARCH, *CURCUMIN, *BIOPOLYMERS, *ARRAIGNMENT, *CHEESE, *AQUEOUS solutions

Abstract

Natural polymers are used more frequently in packaging as alternatives to synthetic plastics. Cornstarch is one of the cheapest carbohydrate biopolymers that form films with suitable properties and appearance but considerably larger hydrophilicity and low mechanical characteristics compared to synthetic films. Incorporating curcumin into cornstarch films improves mechanical and antimicrobial properties and curcumin release into aqueous solutions of the films. The results show that the introduction of curcumin decreases the water solubility of the edible films from 3.58% to 1.49% and the moisture absorption from 2.87% to 1.94% (p < 0.05) and increases the length of films from 40% to 80% without changing their thickness. Examination of color properties shows that the increased curcumin concentration leads to a decrease in transparency and an increase in the redness and yellowness indices. These properties change from 72.2, 3.5, and 5.1 to 39.2, 21, and 13.7, respectively. The number of mold and yeast colonies in the cheese sample decreases during the storage period of 5 days. Generally, the findings indicate that the bioactive film of corn starch and curcumin (0.5%) can be used as a suitable coating for food products. [ABSTRACT FROM AUTHOR]

Published

2024

36. Advances and recent trends in plant-based materials and edible films: a mini-review

Author

David B. Olawade, Ojima Z. Wada, and Abimbola O. Ige

Subjects

plant-based materials, edible films, food packaging, plastic waste, nanocomposite, Chemistry, QD1-999

Abstract

Plant-based materials and edible films have emerged as promising alternatives to conventional packaging materials, offering sustainable and environmentally friendly solutions. This mini-review highlights the significance of plant-based materials derived from polysaccharides, proteins, and lipids, showcasing their renewable and biodegradable nature. The properties of edible films, including mechanical strength, barrier properties, optical characteristics, thermal stability, and shelf-life extension, are explored, showcasing their suitability for food packaging and other applications. Moreover, the application of 3D printing technology allows for customized designs and complex geometries, paving the way for personalized nutrition. Functionalization strategies, such as active and intelligent packaging, incorporation of bioactive compounds, and antimicrobial properties, are also discussed, offering additional functionalities and benefits. Challenges and future directions are identified, emphasizing the importance of sustainability, scalability, regulation, and performance optimization. The potential impact of plant-based materials and edible films is highlighted, ranging from reducing reliance on fossil fuels to mitigating plastic waste and promoting a circular economy. In conclusion, plant-based materials and edible films hold great potential in revolutionizing the packaging industry, offering sustainable alternatives to conventional materials. Embracing these innovations will contribute to reducing plastic waste, promoting a circular economy, and creating a sustainable and resilient planet.

Published

2024

37. Nanoemulsion-based active packaging for food products

Author

Jaishankar Prasad, Aishwarya Dixit, Sujata P. Sharma, Anjelina W. Mwakosya, Anka T. Petkoska, Ashutosh Upadhyay, and Nishant Kumar

Subjects

nanoemulsions, active packaging, essential oils, synthesis methods, shelf life, edible films, Food processing and manufacture, TP368-456

Abstract

Recently, there has been an increasing trend in the food and pharmaceutical industries towards using nanotechnological approaches to drug delivery and active packaging (edible coatings and films). In the food sector, nanoemulsions are the most promising technology for delivering active components and improving the barrier, mechanical, and biological properties of packaging to ensure the safety and quality of food products, as well as extend their shelf life. For this review, we used several databases (Google Scholar, Science Direct, PubMed, Web of Science, Scopus, Research Gate, etc.) to collect information about nanoemulsions and their role in edible packaging. We searched for articles published between 2015 and 2022 and described different scientific approaches to developing active packaging systems based on nanoemulsions, as well as their high-energy and low-energy synthesis methods. We also reviewed the uses of different types of essential oil-based nanoemulsions in the packaging of food products to prolong their shelf life and ensure safety. Non-migratory active packaging and active-release packaging systems were also discussed, as well as their advantages and disadvantages.

Published

2024

38. Carboxymethyl Cellulose-Amuniacum Gum Based Edible Films Enriched with Clove Essential Oil: Optimization Formulation Using Response Surface Methodology (RSM)

Author

A. Homayouni Rad, K. Arab, A. Berri, T. Fazelioskouei, and B. Ebrahimi

Subjects

edible films, oils, volatile, carboxymethyl cellulose sodium, spectroscopy, fourier transform infrared, Food processing and manufacture, TP368-456

Abstract

Backgraound: Polysaccharides, particularly Carboxymethyl Cellulose (CMC) and Ammoniacum Gum (AMG), are considered valuable due to their thermal stability and non-toxicity. CMC has good film-forming ability but weak mechanical properties, while AMG shows promise with its unique chemical composition. Additionally, essential oils, such as Clove Essential Oil (CEO), are being used to enhance the antimicrobial properties of edible films, offering a natural way to extend the shelf life of food products. Methods: This study investigated the combined effect of CMC: 0.5-1.5 wt %, AMG: 1-5 wt %, as well as CEO: 0-30 v/v % on the physical characteristics of the CMC-AMG films by Response Surface Methodology. The optimization was performed with the aim of maximizing Whiteness Index, Ultimate Tensile Strength (UTS), and Strain at Break (SB) and minimizing total color difference (ΔE) values. Fourier-Transform Infrared Spectroscopy, film microstructure, Differential Scanning Calorimeter analysis, and antibacterial activity were investigated. The analysis was conducted using Design Expert software version 10.00 (STAT-EASE Inc., Minneapolis, USA). Result: The films with the highest UTS have been obtained through a composition of 5 g CMC, 1.5 g AMG, and 15% CEO. On the contrary, using a composition of 5 g CMC, 1 g AMG, and 30% CEO revealed the highest SB (115.41%). The highest UTS value of 13.17 MPa was obtained with a formulation consisting of 5% AMG, 1.5% CMC, and 15% CEO. Nevertheless, the maximum SB value of 115.41% was achieved with a formulation containing 5% AMG, 1% CMC, and 30% CEO. Moreover, heterogeneous microstructure and more opaque films were obtained as identified by the higher ΔE. The Differential Scanning Calorimeter results demonstrated that incorporating a CEO did not impinge on thermal stability. Furthermore, the addition of CEO led to a rise in antimicrobial activity against Salmonella enterica, Pseudomonas fluorescens, Escherichia coli, and Listeria monocytogenes. Conclusion: In conclusion, combination of CMC and AMG in optimum levels, led to the production of a film with acceptable mechanical properties. Also, these films showed significant antimicrobial activity. DOI: 10.18502/jfqhc.10.4.14178

Published

2023

39. Effect of the Bioprotective Properties of Lactic Acid Bacteria Strains on Quality and Safety of Feta Cheese Stored under Different Conditions

Author

Angeliki Doukaki, Olga S. Papadopoulou, Antonia Baraki, Marina Siapka, Ioannis Ntalakas, Ioannis Tzoumkas, Konstantinos Papadimitriou, Chrysoula Tassou, Panagiotis Skandamis, George-John Nychas, and Nikos Chorianopoulos

Subjects

white brined cheese, aerobic packaging, edible films, Listeria monocytogenes, Fourier transform infrared (FTIR) spectroscopy, multispectral imaging (MSI) analysis, Biology (General), QH301-705.5

Abstract

Lately, the inclusion of additional lactic acid bacteria (LAB) strains to cheeses is becoming more popular since they can affect cheese’s nutritional, technological, and sensory properties, as well as increase the product’s safety. This work studied the effect of Lactiplantibacillus pentosus L33 and Lactiplantibacillus plantarum L125 free cells and supernatants on feta cheese quality and Listeria monocytogenes fate. In addition, rapid and non-invasive techniques such as Fourier transform infrared (FTIR) and multispectral imaging (MSI) analysis were used to classify the cheese samples based on their sensory attributes. Slices of feta cheese were contaminated with 3 log CFU/g of L. monocytogenes, and then the cheese slices were sprayed with (i) free cells of the two strains of the lactic acid bacteria (LAB) in co-culture (F, ~5 log CFU/g), (ii) supernatant of the LAB co-culture (S) and control (C, UHT milk) or wrapped with Na-alginate edible films containing the pellet (cells, FF) or the supernatant (SF) of the LAB strains. Subsequently, samples were stored in air, in brine, or in vacuum at 4 and 10 °C. During storage, microbiological counts, pH, and water activity (aw) were monitored while sensory assessment was conducted. Also, in every sampling point, spectral data were acquired by means of FTIR and MSI techniques. Results showed that the initial microbial population of Feta was ca. 7.6 log CFU/g and consisted of LAB (>7 log CFU/g) and yeast molds in lower levels, while no Enterobacteriaceae were detected. During aerobic, brine, and vacuum storage for both temperatures, pathogen population was slightly postponed for S and F samples and reached lower levels compared to the C ones. The yeast mold population was slightly delayed in brine and vacuum packaging. For aerobic storage at 4 °C, an elongation in the shelf life of F samples by 4 days was observed compared to C and S samples. At 10 °C, the shelf life of both F and S samples was extended by 13 days compared to C samples. FTIR and MSI analyses provided reliable estimations of feta quality using the PLS-DA method, with total accuracy (%) ranging from 65.26 to 84.31 and 60.43 to 89.12, respectively. In conclusion, the application of bioprotective LAB strains can result in the extension of feta’s shelf life and provide a mild antimicrobial action against L. monocytogenes and spoilage microbiota. Furthermore, the findings of this study validate the effectiveness of FTIR and MSI techniques, in tandem with data analytics, for the rapid assessment of the quality of feta samples.

Published

2024

40. Integrated Valorization of Fucus spiralis Alga: Polysaccharides and Bioactives for Edible Films and Residues as Biostimulants

Author

Valter F. R. Martins, Marta Coelho, Manuela Machado, Eduardo Costa, Ana M. Gomes, Fátima Poças, Raul A. Sperotto, Elena Rosa-Martinez, Marta Vasconcelos, Manuela E. Pintado, Rui M. S. C. Morais, and Alcina M. M. B. Morais

Subjects

Fucus spiralis, edible films, bioactive compounds, polysaccharides, total phenolic content, antioxidant activity, Chemical technology, TP1-1185

Abstract

Fucus spp. seaweeds thrive in the cold temperate waters of the northern hemisphere, specifically in the littoral and sublittoral regions along rocky shorelines. Moreover, they are known to be a rich source of bioactive compounds. This study explored the valorization of Fucus spiralis through the extraction of bioactives and polysaccharides (PSs) for food applications and biostimulant use. The bioactives were extracted using microwave hydrodiffusion and gravity (MHG), where the condition of 300 W for 20 min resulted in the highest total phenolic content and antioxidant activity of the extract. Cellular assays confirmed that the extract, at 0.5 mg/mL, was non-cytotoxic to HaCat cells. Polysaccharides (PSs) were extracted from the remaining biomass. The residue from this second extraction contained 1.5% protein and 13.35% carbohydrates. Additionally, the free amino acids and minerals profiles of both solid residues were determined. An edible film was formulated using alginate (2%), PS-rich Fucus spiralis extract (0.5%), and F. spiralis bioactive-rich extract (0.25%). The film demonstrated significant antioxidant properties, with ABTS and DPPH values of 221.460 ± 10.389 and 186.889 ± 36.062 µM TE/mg film, respectively. It also exhibited notable physical characteristics, including high water vapor permeability (11.15 ± 1.55 g.mm.m−2.day−1.kPa−1) and 100% water solubility. The residues from both extractions of Fucus spiralis exhibited biostimulant (BS) effects on seed germination and seedling growth. BSs with PSs enhanced pea germination by 48%, while BSs without PSs increased the root dry weight of rice and tomato by 53% and up to 176%, respectively, as well as the shoot dry weight by up to 38% and up to 74%, respectively. These findings underscore the potential of Fucus spiralis within the framework of a circular economy, wherein both extracted bioactives and post-extraction by-products can be used for sustainable agriculture and food applications.

Published

2024

41. Thermal Properties of Biopolymer Films: Insights for Sustainable Food Packaging Applications

Author

Shah, Yasir Abbas, Bhatia, Saurabh, Al-Harrasi, Ahmed, Oz, Fatih, Khan, Mujahid Hassan, Roy, Swarup, Esatbeyoglu, Tuba, and Pratap-Singh, Anubhav

Published

2024

42. Investigation of the Structure-Forming Potential of Protein Components in the Reformulation of the Composition of Edible Films.

Author

Janowicz, Monika, Galus, Sabina, Szulc, Karolina, Ciurzyńska, Agnieszka, and Nowacka, Małgorzata

Subjects

*EDIBLE coatings, *GELATIN, *WATER vapor, *WHEY proteins, *FOOD industry, *DISTRIBUTION isotherms (Chromatography), *WHEY, *CHEESE

Abstract

To optimize the functional properties of edible films or coatings, mixtures of several ingredients are used, including food processing by-products. In this way, pectin from fruit pomace, whey proteins from whey as a by-product of rennet cheese production, and gelatin from by-products of the processing of slaughtered animals can be obtained. The aim and scope of the investigation were to verify the hypothesis of the research, which assumes that the addition of beef broth to edible gelatin films will affect the gelation processes of the tested film-forming solutions and will allow for the modification of the edible properties of the films obtained based on these solutions. Measurements were carried out to determine the visual parameters, mechanical strengths, surface and cross-sectional structures, FTIR spectra, thermal degradation rates, and hydrophilicities of the prepared gelatin films. The water content, water vapor permeability, and course of water vapor sorption isotherms of the films were also examined, as well as the course of the gelation process for film-forming solutions. The addition of broth to film-forming solutions was found to increase their opacity and color saturation, especially for the ones that were yellow. The films with the addition of broth were more uneven on the surface and more resistant to stretching, and in the case of the selected types of gelatins, they also formed a more stable gel. The broth increased the hydrophilicity and permeability of the water vapor and reduced the water content of the films. The addition of broth enables the practical use of edible films, but it is necessary to modify some features. [ABSTRACT FROM AUTHOR]

Published

2024

43. Orally disintegrating films based on sodium alginate as a carrier vehicle for vitamin C.

Author

Palezi, Simone Canabarro, Fernandes, Sibele Santos, Barbosa, Sergiane Caldas, Primel, Ednei Gilberto, and Martins, Vilásia Guimarães

Subjects

*VITAMIN C, *SODIUM alginate, *THERMAL analysis, *VITAMINS, *EDIBLE coatings

Abstract

Summary: Orally disintegrating films (ODFs) have been studied for their innovative way of delivering active compounds into the oral cavity. The study aimed to develop and evaluate ODFs using sodium alginate and different concentrations of vitamin C. Four formulations were evaluated for barrier, mechanical, thermal, microstructural properties, surface pH, disintegration time and concentration of vitamins. The ODFs produced showed high solubility, pH close to oral and disintegration time ranging from 24.66 s for the control formulation to 56.28 s for the 1% ascorbic acid formulation. The release of vitamin C occurred after 1 min of reaction for all formulations with the lowest concentration (0.25%) releasing a volume of 80.46 mg g−1. Thermal analyses demonstrated the presence of sodium alginate and vitamin C, and an interaction between them, confirmed by FTIR spectra. This interaction was interesting for ODFs since it can affect the properties and release of the active compound from the polymeric matrix. The results positively demonstrated that sodium alginate can be a promising polymer in the production of ODFs and for use in the delivery of vitamin C. [ABSTRACT FROM AUTHOR]

Published

2024

44. Development and Characterization of Edible Films Based on Cassava Starch Modified by Corona Treatment.

Author

Otálora González, Carlos Mauricio, Felix, Manuel, Bengoechea, Carlos, Flores, Silvia, and Gerschenson, Lía Noemí

Subjects

CASSAVA starch, EDIBLE coatings, SURFACE preparation, RHEOLOGY, WATER vapor, STARCH, PACKAGING materials

Abstract

Corona treatment (CT), a surface treatment widely used in the plastic industry, can be used to alter the properties of cassava starch. In the present work, CT was performed on dry granular starch (DS), water-suspended humid granular starch (HS), and gelatinized starch (GS). Different properties and structural characteristics of treated starches were studied. A lowering in pH was generally observed after CT and the rheological properties depended on the starch presentation. A reinforcement of DS and HS samples after CT was deduced from higher viscosity values in flow assays and viscoelastic moduli, but weak gels were obtained when CT was applied to GS. Changes in the A-type polymorphic structure, as well as a drop in relative crystallinity, were produced by CT for DS and HS. Additionally, changes in O-H and C-O-C FTIR bands were observed. Therefore, CT can be applied for starch modification, producing predominantly cross-linking in the DS and de-polymerization in the HS. Casting films made from the modified DS showed higher tensile strength and lower hydrophilicity, solubility, water absorption capacity, and water vapor permeability. Thus, the DS cross-linking induced by CT improved mechanical characteristics and hydrophobicity in edible films, which can be better used as packaging materials. [ABSTRACT FROM AUTHOR]

Published

2024

45. Bioactive Edible Gel Films Based on Wheat Flour and Glucose for Food Packaging Applications.

Author

Petaloti, Argyri-Ioanna, Makri, Styliani, and Achilias, Dimitris S.

Subjects

COLLOIDS, FLOUR, GLUCOSE, EDIBLE coatings, FOOD packaging, CHEMICAL structure, BIODEGRADATION

Abstract

In order to prepare bioactive edible gel films with enhanced properties, the feasibility of using wheat flour as a raw material with glucose added at several concentrations was studied in this investigation. Films were prepared with glucose concentrations of 0.5, 0.7 and 1 g/g of flour and characterized for their physicochemical properties, including water content, solubility, degree of swelling, chemical structure by FT-IR (ATR) spectroscopy, morphology by SEM microscopy, thermal properties by DSC, gas and water vapor permeability and antioxidant activity. Biodegradation studies were also carried out in soil for 27 days and evaluated by weight loss measurements. It was found that the gel film with the higher glucose concentration exhibits a homogeneous and continuous structure with no cracks and no fragility, accompanied by an increased thickness and solubility and a decreased degree of swelling compared to those with lower concentrations. The chemical structure of all films was verified. Moreover, the increase in glucose content leads to better gas barrier properties with lower oxygen, CO2 and water vapor transmission rates and increased water vapor permeability. A slightly elevated melting temperature was observed in the films with higher glucose content. Higher antioxidant activity was also associated with higher percentage of glucose. Finally, the biodegradation of the films ranged from 13 to nearly 70%. Therefore, it can be concluded that the addition of glucose to wheat flour in concentration up to 1 g/g could result in edible gel films with excellent properties to be used in food packaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

46. Recent Highlights in Sustainable Bio-Based Edible Films and Coatings for Fruit and Vegetable Applications.

Author

Martins, Valter F. R., Pintado, Manuela E., Morais, Rui M. S. C., and Morais, Alcina M. M. B.

Subjects

EDIBLE coatings, FRUIT, VEGETABLES, BIOACTIVE compounds, MICROBIAL growth

Abstract

The present review paper focuses on recent developments in edible films and coatings made of base compounds from biological sources, namely plants, animals, algae, and microorganisms. These sources include by-products, residues, and wastes from agro-food industries and sea products that contribute to sustainability concerns. Chitosan, derived from animal biological sources, such as crustacean exoskeletons, has been the most studied base compound over the past three years. Polysaccharides typically constitute no more than 3–5% of the film/coating base solution, with some exceptions, like Arabic gum. Proteins and lipids may be present in higher concentrations, such as zein and beeswax. This review also discusses the enrichment of these bio-based films and coatings with various functional and/or bioactive compounds to confer or enhance their functionalities, such as antimicrobial, antioxidant, and anti-enzymatic properties, as well as physical properties. Whenever possible, a comparative analysis among different formulations was performed. The results of the applications of these edible films and coatings to fruit and vegetable products are also described, including shelf life extension, inhibition of microbial growth, and prevention of oxidation. This review also explores novel types of packaging, such as active and intelligent packaging. The potential health benefits of edible films and coatings, as well as the biodegradability of films, are also discussed. Finally, this review addresses recent innovations in the edible films and coatings industry, including the use of nanotechnologies, aerogels, and probiotics, and provides future perspectives and the challenges that the sector is facing. [ABSTRACT FROM AUTHOR]

Published

2024

47. Preparation of Novel Flaxseed Oil/Beeswax Oleogel Systems and Its Application in the Improvement of Sodium Alginate Films.

Author

Xue, Shan and Huang, Qun

Subjects

SODIUM alginate, LINSEED oil, BEESWAX, THIOBARBITURIC acid test, TENSILE strength, DECAPTERUS

Abstract

The purpose of this study was to prepare a novel kind of flaxseed oil (FO)/beeswax oleogel system and apply it to improve the properties of sodium alginate films. Three single factors, namely the ratio of beeswax/FO, the addition of oleogel, and the addition of glycerol, were optimized based on the comprehensive score of film characteristics: elongation at break (EAB), tensile strength (TS), hydroxyl radical clearance (HRC), and water vapor permeability (WVP) of the film. When the ratio of beeswax/FO was 7.807%, the addition of oleogel was 4.829%, and the addition of glycerol was 31.088%, the comprehensive score of the film characteristics was maximum. Moreover, the Decapterus maruadsi preserved by the produced films were assessed for drip loss, pH, total volatile basic nitrogen (TVB-N), thiobarbituric acid reactive substance (TBARS), and fatty acids composition. In comparison to the control, the produced films incorporated with linseed oil/beeswax oleogel had a longer shelf-life than Decapterus maruadsi. In conclusion, the oleogel system prepared via linseed oil/beeswax had good stability and hydrophobicity, which can significantly improve the characteristics of the film and extend the shelf-life of Decapterus maruadsi. [ABSTRACT FROM AUTHOR]

Published

2024

48. Physicochemical Characterisation of Polysaccharide Films with Embedded Bioactive Substances.

Author

Gautam, Shweta, Lapcik, Lubomir, Lapcikova, Barbora, Repka, David, and Szyk-Warszyńska, Lilianna

Subjects

POLYSACCHARIDES, SODIUM carboxymethyl cellulose, CITRIC acid, FOOD packaging, BIOACTIVE compounds, EDIBLE coatings

Abstract

In this study, sodium carboxymethyl cellulose (CMCNa) bioactive films, crosslinked with citric acid (CA), were prepared and comprehensively examined for their suitability in various applications, focusing on food packaging. The films displayed favourable properties, including appropriate thickness, transparency, and moisture content, essential for packaging purposes. Moreover, the films exhibited excellent moisture absorption rate and barrier properties, attributed to the high concentration of CMCNa and the inclusion of a CA. These films presented no significant effect of crosslinking and bioactive components on their mechanical strength, as evidenced by tensile strength and elongation at break values. Thermal stability was demonstrated in the distinct weight loss events at different temperature ranges, with crosslinking contributing to slightly enhanced thermal performance. Furthermore, the films showed varying antioxidant activity levels, influenced by temperature and the solubility of the films in different media, indicating their potential for diverse applications. Overall, these bioactive films showed promise as versatile materials with desirable properties for food packaging and related applications, where the controlled release of bioactive components is advantageous for enhancing the shelf life and safety of food products. These findings contribute to the growing research in biodegradable and functional food packaging materials. [ABSTRACT FROM AUTHOR]

Published

2023

49. Bioactive Edible Films Based on LAB-Fermented Whey Solution and Potato Starch: Characterization and Storage Behavior.

Author

Hernández-Carranza, P., Fierro-Corona, G., Tapia-Maruri, D., Ruiz-Martínez, I., Ávila-Reyes, S.V., Ruiz-López, I.I., and Ochoa-Velasco, C.E.

Subjects

*STARCH, *EDIBLE coatings, *PROBIOTICS, *WHEY, *LACTOBACILLUS acidophilus, *ESCHERICHIA coli

Abstract

This study aimed to develop and characterize bioactive edible films (EFs) based on LAB-fermented whey solution and potato starch and evaluate their physical, mechanical, and probiotic count during storage. Fermented whey solutions with Lactobacillus acidophilus and Lactobacillus rhamnosus were mixed with potato starch solution (1:1 v/v) to produce EFs, which were evaluated in their moisture, color, thickness, tensile strength, water vapor permeability, and probiotic load at the beginning and after 14 days of storage (4 ± 1 °C) using PET and LLDPE as secondary packages. Selected EFs were evaluated in their antimicrobial activity against Escherichia coli and their viable cell count and structure using laser scanning confocal (LSC) and environmental scanning electronic micrographs (ESEM), respectively. The thickness (37.5–62.5%) and tensile strength (86.4–136.4%) of EFs increased by adding fermented whey in the film formulation (compared to control EFs), while moisture, color parameters, and elongation at break were not affected. The probiotic count obtained after the gastrointestinal process was higher (1.64–1.82 log) than the obtained in not digested EFs, indicating a liberation of trapped microorganisms during the gastrointestinal process. In general, the package did not affect the mechanical properties of EFs. The probiotic count was not affected by the package and storage time, showing a similar viable count in both plate counting and LSC. Micrographs indicated that LAB-fermented whey EFs showed smooth surfaces without breakups; however, after storage, a reduction in thickness and a fractured surface were observed. Stored LAB-fermented EFs showed antimicrobial activity (21–22 mm inhibition zone) against E. coli. Fermented EFs showed adequate stability to be applied in food products. [ABSTRACT FROM AUTHOR]

Published

2023

50. Influence of Paprika Oleoresin Addition on the Structural Properties of Soy Protein Isolate Films.

Author

Prestes, Caroline Furtado, Barroso, Lívia Alves, Procópio, Fernanda Ramalho, Michelon, Mariano, and Hubinger, Miriam Dupas

Subjects

*SOY proteins, *PAPRIKA, *MOLECULAR interactions, *MEAT, *THERMAL properties, *EDIBLE coatings

Abstract

This work evaluated the effect of adding an emulsion containing paprika oleoresin on the properties of soy protein isolate films. Different proportions of the dispersed and continuous phases of the emulsion were studied to define the most stable emulsion to be added to the film. Three films were developed, containing soy protein isolate and glycerol (control film), and added paprika oleoresin emulsion in higher and lower concentrations (0.25% POR and 0.50% POR). The films were evaluated for colorimetric, structural, thermal properties, and molecular interactions. The addition of paprika oleoresin positively impacted the analyzed properties. Films with added oleoresin were more attractive, opaque and have a more resistant barrier to UV/Vis exposure. The emulsion was homogeneously and continuously dispersed, and the films were considered resistant due to the amorphous crystallinity pattern. Characteristic peaks of paprika oleoresin were evidenced by molecular interaction analysis. These results are promising for applications of the films in food products, highlighting the wrapping of meat products such as sausages or bologna. [ABSTRACT FROM AUTHOR]

Published

2023