Valorization of Winemaking By-Products as a Novel Source of Antibacterial Properties: New Strategies to Fight Antibiotic Resistance

Silva, Adriana; Silva, Vanessa; Igrejas, Gilberto; Gaivão, Isabel; Aires, Alfredo; Klibi, Naouel; Dapkevicius, Maria de Lurdes Enes; Valentão, Patrı́cia; Falco, Virgílio; Poeta, Patrícia

doi:10.3390/molecules26082331

Cited by 50 publications

(55 citation statements)

References 107 publications

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“…The powder obtained was subjected to extraction with petroleum ether for 8 h. For each seed sample, 20 g of product was placed in an extraction cartridge and so on degreased, applying the Soxhlet method at a temperature of 50 • C. The samples were then homogenized with 50 mL solvent consisting of nine parts acetone and one part distilled water for the extraction of polyphenols for 12 h. Subsequently, they were centrifuged for 30 min at 3500 revolutions/min, filtered and evaporated in rotavapor-1:10. To obtain the most conclusive results, three samples of each variety selected for the study were used (1,2,3). The extracts obtained were stored at a temperature between 0 and 4 • C in dark glass containers.…”

Section: Methodsmentioning

confidence: 99%

Identification and Quantification of Valuable Compounds in Red Grape Seeds

et al. 2021

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Grape seeds are a by-product of the wine industry. They represent 38–52% of grape pomace and about 5% of the weight of grapes. The main objective of this study is to establish some important characteristics of grape seeds from red varieties cultivated in Romania. The analyzed grape varieties were Cabernet Sauvignon, Merlot, Pinot noir, Burgund Mare, Cadarcă, Syrah, Novac. The grape seeds were dried and ground and the following determinations were made: determination of total polyphenol content, antioxidant capacity, antiradical capacity and determination of phenolic compounds. The analyses were performed on the first day after obtaining the grape extract, on the 14th day and the 30th day. The obtained results demonstrate that all the analyzed samples have a high content of polyphenols and show antioxidant and antiradical capacity. The highest values were obtained on the first day after separation, drying, grinding and extraction of the grape seeds and began to decrease almost constantly in time, so that for 30 days from storage the values obtained could ensure good operating yields. The seeds from the Novac grape variety obtained the best results throughout the analysis period. In the case of the total polyphenol content, the average value of the three samples Novac was 394.57 mgGAE/g dry extract and the average value of antioxidant capacity was 284.35 mgAAE/g dry extract. The greatest antiradical capacity was presented by the seeds of the Syrah and Novac varieties. The average value of the three samples from the Syrah variety was 62.1%, and in the case of the Novac variety was 61.33%. The paper demonstrates the opportunity of superior capitalization of seeds from the seven grape varieties cultivated on the territory of Romania due to the characteristics it possesses. At present, there is a major interest of consumers in the most natural products, with a major contribution to increasing the body’s immunity. The use of natural compounds in the food and pharmaceutical industry can be an important alternative.

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Section: Methodsmentioning

confidence: 99%

Identification and Quantification of Valuable Compounds in Red Grape Seeds

et al. 2021

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“…Due to their availability in sufficient amounts for a low cost, some by-products or wastes of phenolic-rich edible plants are promising sources of antimicrobial phenolics. The most studied sources in the 2007–2017 decade for extraction of antimicrobial phenolics were listed by Bouarab-Chibane et al (2018a) and the potential of application of most of their extracts was recently reviewed by several authors: they include spent coffee ( Monente et al, 2015 ), green tea waste ( Siddiqui et al, 2016 ), olive pomace and olive leaf ( Munekata et al, 2020 ; Difonzo et al, 2021 ), pomegranate peel ( Chen et al, 2020 ) or aril, grape pomace or seeds ( Silva et al, 2021 ), mango kernel ( Mwaurah et al, 2020 ), myrtle berries seeds ( Jabria et al, 2016 ), dates ( Kchaou et al, 2016 ), walnut green husk ( Jahanban-Esfahlan et al, 2019 ), almond skin ( Bolling, 2017 ), tomato seeds ( Taveira et al, 2010 ; Szabo et al, 2019 ), buckwheat hull extract ( Cabarkapa et al, 2008 ), pomelo peel ( Liu et al, 2017b ; Tocmo et al, 2020 ).…”

Section: Structural Diversity Of Antimicrobial Plant Phenolicsmentioning

confidence: 99%

Phenolic-Rich Plant Extracts With Antimicrobial Activity: An Alternative to Food Preservatives and Biocides?

Oulahal

Degraeve

2022

Front. Microbiol.

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In recent years, the search for natural plant-based antimicrobial compounds as alternatives to some synthetic food preservatives or biocides has been stimulated by sanitary, environmental, regulatory, and marketing concerns. In this context, besides their established antioxidant activity, the antimicrobial activity of many plant phenolics deserved increased attention. Indeed, industries processing agricultural plants generate considerable quantities of phenolic-rich products and by-products, which could be valuable natural sources of natural antimicrobial molecules. Plant extracts containing volatile (e.g., essential oils) and non-volatile antimicrobial molecules can be distinguished. Plant essential oils are outside the scope of this review. This review will thus provide an overview of current knowledge regarding the promises and the limits of phenolic-rich plant extracts for food preservation and biofilm control on food-contacting surfaces. After a presentation of the major groups of antimicrobial plant phenolics, of their antimicrobial activity spectrum, and of the diversity of their mechanisms of action, their most promising sources will be reviewed. Since antimicrobial activity reduction often observed when comparing in vitro and in situ activities of plant phenolics has often been reported as a limit for their application, the effects of the composition and the microstructure of the matrices in which unwanted microorganisms are present (e.g., food and/or microbial biofilms) on their activity will be discussed. Then, the different strategies of delivery of antimicrobial phenolics to promote their activity in such matrices, such as their encapsulation or their association with edible coatings or food packaging materials are presented. The possibilities offered by encapsulation or association with polymers of packaging materials or coatings to increase the stability and ease of use of plant phenolics before their application, as well as to get systems for their controlled release are presented and discussed. Finally, the necessity to consider phenolic-rich antimicrobial plant extracts in combination with other factors consistently with hurdle technology principles will be discussed. For instance, several authors recently suggested that natural phenolic-rich extracts could not only extend the shelf-life of foods by controlling bacterial contamination, but could also coexist with probiotic lactic acid bacteria in food systems to provide enhanced health benefits to human.

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“…GP composition may vary since the proportion in each phase can be different, as the seed fraction is between 38-52% [9]. This by-product is rich in BAC, such as unsaturated fatty acids, dietary fibers, vitamins, and natural antioxidants, mainly in the form of PC (as phenolic acids, flavonoids, and proanthocyanins) [9,12,13]. PC are plants' secondary metabolites, of which the quantity available on the plant depends on multiple factors as cultivation technique, growing conditions, harvest process, processing, and storage.…”

Section: Introductionmentioning

confidence: 99%

A Potential Valorization Strategy of Wine Industry by-Products and Their Application in Cosmetics—Case Study: Grape Pomace and Grapeseed

Ferreira

Santos

2022

Molecules

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Grape pomace and grapeseed are agro-industrial by-products, whose inadequate treatment generates socioeconomic and environmental concerns. Nevertheless, it is possible to valorize them by extracting their bioactive compounds, such as antioxidants (phenolic compounds), vitamin E and fatty acids. The bioactive compounds were extracted using solid-liquid extraction. The yields for phenolic compounds were 18.4 ± 0.4% for grape pomace, and 17.4 ± 0.4%, for grapeseed. For the oil, the yields were 13.3 ± 0.2% and 14.5 ± 0.3% for grape pomace and grapeseed. Antioxidant capacity was assessed by the assay with 2,2-diphenyl-1-picrylhydrazyl (DPPH), and showed that phenolic extract has higher antioxidant capacity than the oils. Grape pomace and grapeseed extracts exhibit, correspondingly, values of 90.8 ± 0.8 and 87.5 ± 0.5 of DPPH inhibition and IC50 of 48.9 ± 0.5 and 55.9 ± 0.7 μgextract·mLDPPH−1. The antimicrobial capacity was assessed by the disk diffusion test, and revealed that, phenolic extracts inhibit the growth of Staphylococcus aureus and Staphylococcus epidermidis. The obtained extracts were incorporated in 10 face cream formulations, with slight modifications in quantities of formulation stabilizers. Their stability was studied for 35 days, and this revealed the possibility of incorporating extracts and oils obtained from by-products as antioxidants in cosmetics, and replacing synthetic ones. As a future recommendation, microencapsulation of the extracts should be performed, in order to increase their stability.

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Valorization of Winemaking By-Products as a Novel Source of Antibacterial Properties: New Strategies to Fight Antibiotic Resistance

Cited by 50 publications

References 107 publications

Identification and Quantification of Valuable Compounds in Red Grape Seeds

Identification and Quantification of Valuable Compounds in Red Grape Seeds

Phenolic-Rich Plant Extracts With Antimicrobial Activity: An Alternative to Food Preservatives and Biocides?

A Potential Valorization Strategy of Wine Industry by-Products and Their Application in Cosmetics—Case Study: Grape Pomace and Grapeseed

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