Obtaining and Characterisation of Starch-Based Edible Films Incorporating Honey, Propolis and Bee Bread

Mironescu, Monica; Fratila, Laura; Hupert, Alexandru; Mironescu, Ion Dan

doi:10.2478/aucft-2019-0023

Cited by 10 publications

(11 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The application of nanotechnology (e.g., nanoparticles and nanoemulsions) in the encapsulation of propolis extract is a new trend to develop active packaging films with improved stability and controlled release of active compounds (Moreno et al, 2020;Villalobos et al, 2017). Recently, raw propolis powder has been added into biopolymeric solutions without extraction (Hajinezhad, Razavizadeh, & Niazmand, 2020;Mironescu et al, 2019;Ulloa et al, 2019). Although this approach is simple and cost-saving, the developed films exhibit heterogenous appearance and unsatisfied F I G U R E 2 Scheme illustrates the development of active packaging films based on propolis by extrusion technology physical properties.…”

Section: F I G U R Ementioning

confidence: 99%

“…Due to the presence of abundant polyphenolic compounds, propolis extract (especially propolis ethanolic extract) has been widely used to develop active packaging films. As summarized in Table 2, different biopolymers, including gelatin (Bodini, Sobral, Favaro-Trindade, & Carvalho, 2013;Moreno et al, 2020), κ-carrageenan (Chang-Bravo, López-Córdoba, & Martino, 2014, starch (Costa, Druzian, Machado, de Souza, & Guimarães, 2014;de Araújo et al, 2015;Mironescu, Fratila, Hupert, & Mironescu, 2019;Mustafa et al, 2020;Suriyatem, Auras, Rachtanapun, & Rachtanapun, 2018;Villalobos et al, 2017), chitosan (Correa-Pacheco, Bautista-Baños, de Lorena Ramos-García, del Carmen Martínez-González, & Hernández-Romano, 2019;Shahbazi & Shavisi, 2018;Siripatrawan & Vitchayakitti, 2016), pullulan (Pobiega, Przybył, Żubernik, & Gniewosz, 2020), and alginate and agar (Juliano, Pala, & Cossu, 2007), are commonly selected as film matrix to carry active propolis extract. These nontoxic, renewable, and biodegradable biopolymers are isolated from natural resources and are considered as the alternatives to petroleum-based plastics (Mohamed, El-Sakhawy, & El-Sakhawy, 2020 F I G U R E 1 Scheme illustrates the development of active packaging films based on propolis extract by solvent casting method packaging films frequently possess good optical, barrier, and mechanical properties at low relative humidity (RH) conditions.…”

Section: Preparation Of Active Packaging Filmsmentioning

confidence: 99%

See 1 more Smart Citation

Active packaging films and edible coatings based on polyphenol‐rich propolis extract: A review

Yong

Liu

2021

Comp Rev Food Sci Food Safe

128

View full text Add to dashboard Cite

The development of active packaging films and edible coatings based on biopolymers and natural bioactive substances has received increasing attention in recent years. Propolis, also called bee glue, is a natural resin substance collected by worker‐bees from the mucilage, gum, and resin of several plants. In food industry, propolis is commonly extracted in solvents to afford polyphenol‐rich extract with potent antimicrobial and antioxidant activities. The prepared propolis extract can be mixed with biopolymers, plasticizers, emulsifiers, and reinforcing agents to develop active packaging films and edible coatings. The functionality of active packaging films and edible coatings is closely related to the type, harvesting method, geographic origin, extraction method and extraction conditions of propolis, the content and composition of polyphenolic compounds in the extract, and the presence of other bioactive substances. Active packaging films and edible coatings based on propolis extract can impact the physical, biochemical, and sensory properties of food (e.g., fruits, vegetables, meat, and fish) during storage. This review focuses on the recent advances of active packaging films and edible coatings based on polyphenol‐rich propolis extract. The impact of polyphenol‐rich propolis extract on the structural characterization, functionality, and potential food applications of the films and edible coatings is summarized.

show abstract

Section: F I G U R Ementioning

confidence: 99%

Section: Preparation Of Active Packaging Filmsmentioning

confidence: 99%

Active packaging films and edible coatings based on polyphenol‐rich propolis extract: A review

Yong

Liu

2021

Comp Rev Food Sci Food Safe

128

View full text Add to dashboard Cite

show abstract

“…The casting process uses solvents for the dispersion of film-forming materials, followed by drying to remove the solvent and form a film structure. The film-forming dispersions should be applied to flat surfaces using a sprayer, spreader, or dipping roller, and dried to eliminate the solvent, forming a film structure [127,130]. Casting has been extensively used in laboratory studies because it does not require specific equipment and consumes lesser amounts of raw materials; many researches refer to films obtained by casting [131][132][133][134][135][136].…”

Section: Green Chemical Treatments Of the Starch-based Films And Coatings By Incorporating Bioactive Compoundsmentioning

confidence: 99%

Green Design of Novel Starch-Based Packaging Materials Sustaining Human and Environmental Health

et al. 2021

Self Cite

View full text Add to dashboard Cite

A critical overview of current approaches to the development of starch-containing packaging, integrating the principles of green chemistry (GC), green technology (GT) and green nanotechnology (GN) with those of green packaging (GP) to produce materials important for both us and the planet is given. First, as a relationship between GP and GC, the benefits of natural bioactive compounds are analyzed and the state-of-the-art is updated in terms of the starch packaging incorporating green chemicals that normally help us to maintain health, are environmentally friendly and are obtained via GC. Newer approaches are identified, such as the incorporation of vitamins or minerals into films and coatings. Second, the relationship between GP and GT is assessed by analyzing the influence on starch films of green physical treatments such as UV, electron beam or gamma irradiation, and plasma; emerging research areas are proposed, such as the use of cold atmospheric plasma for the production of films. Thirdly, the approaches on how GN can be used successfully to improve the mechanical properties and bioactivity of packaging are summarized; current trends are identified, such as a green synthesis of bionanocomposites containing phytosynthesized metal nanoparticles. Last but not least, bioinspiration ideas for the design of the future green packaging containing starch are presented.

show abstract

“…özellikleri nedeniyle taşıyıcı sistemler olarak kullanılabilir. Bal, polen, propolis, arı ekmeği kullanılarak oluşturulmuş yenilebilir kaplamalar üzerine çalışmalar bulunmaktadır [46]. Literatür incelendiğinde bu konuda en çok çalışılan arı ürününün propolis olduğu anlaşılmaktadır.…”

Section: Antimikrobiyal Aktiviteunclassified

Gıdaların Raf Ömürleri İçin Yeni Bir Yaklaşım: Arı Ürünleri İle Yenilebilir Kaplamalar

Mesci

Esim

2020

Türk Doğa Ve Fen Dergisi

View full text Add to dashboard Cite

Öz: Arıcılık faaliyetleri sonucu üretilen ürünler hem insan beslenmesi için hem de ekonomik olarak büyük önem taşır. Bu ürünler gıda, kimya, sağlık, kozmetik alanlarında geniş kullanıma sahiptir. Arıcılıkta üretimi en çok bilinen ve yapılan ürünler bal ve bal mumudur ancak polen, propolis, arı sütü, arı zehri ve arı ekmeği (perga) ticari değeri olan diğer önemli arı ürünlerdir. Yenilebilir ambalajlar; gıdaların raf ömürlerinin uzatılması özelliklerine sahip olan ve kapladıkları gıdalarla tüketilebilir olan ambalajlardır. Bunlar; film, kaplama, tabaka ya da torba olarak üretilebilir. Yenilebilir kaplamada polisakkaritler, lipidler, proteinler, organik çözücüler, plastikleştiriciler, antioksidan ajanlar, antimikrobiyal ajanlar ve yüzey aktif maddeleri kullanılmaktadır. Yenilebilir kaplamalar, işlenmiş gıdalarda duyusal özellikleri iyileştirilmek için renk ve aroma bileşiklerinin taşıyıcısı olarak da kullanılabilir. Son yıllarda yenilebilir kaplamalarda etkili ve güvenilir kaplamalar yapmak için arı ürünleri de kullanılmaktadır. Mevcut kaplama materyalleri arı ürünleriyle birleştirilerek kaplamanın işlevsel özellikleri geliştirilebilir. Arı ürünleri içeriğindeki biyoaktif bileşenler kaplama materyalleri ile etkileşime girerek mevcut kaplamanın bariyer özelliklerini, esnekliğini, yapısal özelliklerini arttırmaktadır. Arı ürünleri; antibakteriyel, antioksidan, antitümoral ve antiviral özellikteki aktif ajanlar içerir. Aktif ajanlar için taşıyıcı sistemler olarak kullanılan yenilebilir film ve kaplamaların etkinliği kullanılacak arı ürünlerinden dolayı daha da artabilir. Bu nedenle, bu makalede arı ürünlerinden hazırlanan yenilebilir kaplama materyalleri üzerine yapılan literatür çalışmalarının gözden geçirilmesi amaçlanmıştır.

show abstract

Obtaining and Characterisation of Starch-Based Edible Films Incorporating Honey, Propolis and Bee Bread

Cited by 10 publications

References 19 publications

Active packaging films and edible coatings based on polyphenol‐rich propolis extract: A review

Active packaging films and edible coatings based on polyphenol‐rich propolis extract: A review

Green Design of Novel Starch-Based Packaging Materials Sustaining Human and Environmental Health

Gıdaların Raf Ömürleri İçin Yeni Bir Yaklaşım: Arı Ürünleri İle Yenilebilir Kaplamalar

Contact Info

Product

Resources

About