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1.
Dietary Plant Polyphenols: Effects of Food Processing on Their Content and Bioavailability.
Arfaoui, L
Molecules (Basel, Switzerland). 2021;(10)
Abstract
Dietary plant polyphenols are natural bioactive compounds that are increasingly attracting the attention of food scientists and nutritionists because of their nutraceutical properties. In fact, many studies have shown that polyphenol-rich diets have protective effects against most chronic diseases. However, these health benefits are strongly related to both polyphenol content and bioavailability, which in turn depend on their origin, food matrix, processing, digestion, and cellular metabolism. Although most fruits and vegetables are valuable sources of polyphenols, they are not usually consumed raw. Instead, they go through some processing steps, either industrially or domestically (e.g., cooling, heating, drying, fermentation, etc.), that affect their content, bioaccessibility, and bioavailability. This review summarizes the status of knowledge on the possible (positive or negative) effects of commonly used food-processing techniques on phenolic compound content and bioavailability in fruits and vegetables. These effects depend on the plant type and applied processing parameters (type, duration, media, and intensity). This review attempts to shed light on the importance of more comprehensive dietary guidelines that consider the recommendations of processing parameters to take full advantage of phenolic compounds toward healthier foods.
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2.
Red Palm Oil: A Review on Processing, Health Benefits and Its Application in Food.
Tan, CH, Lee, CJ, Tan, SN, Poon, DTS, Chong, CYE, Pui, LP
Journal of oleo science. 2021;(9):1201-1210
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Abstract
This review is aimed to provide a comprehensive overview of the physicochemical properties and extraction processes of red palm oil, its nutritional properties and applications in food. Crude palm oil is firstly extracted from the fruit mesocarp and processed into red palm oil using pre-treatment of crude palm oil, with deacidification steps, and deodorization via short-path distillation. These processes help to retain β-carotene and vitamin E in red palm oil. Palmitic, stearic and myristic acids are the saturated fatty acids in red palm oil, while the unsaturated fatty acids are oleic, linoleic and linolenic acids. It is reported to overcome vitamin A deficiency, promote heart health and have anti-cancer properties.
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Recent Advances in Recovery of Lycopene from Tomato Waste: A Potent Antioxidant with Endless Benefits.
Madia, VN, De Vita, D, Ialongo, D, Tudino, V, De Leo, A, Scipione, L, Di Santo, R, Costi, R, Messore, A
Molecules (Basel, Switzerland). 2021;(15)
Abstract
Growing attention to environmental protection leads food industries to adopt a model of "circular economy" applying safe and sustainable technologies to recover, recycle and valorize by-products. Therefore, by-products become raw material for other industries. Tomato processing industry produces significant amounts of by-products, consisting of skins and seeds. Tomato skin is very rich in lycopene, and from its seeds, high nutritional oil can be extracted. Alternative use of the two fractions not only could cut disposal costs but also allow one to extract bioactive compounds and an oil with a high nutritional value. This review focused on the recent advance in extraction of lycopene, whose beneficial effects on health are widely recognized.
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Impact of ultrasonic treatment on rice starch and grain functional properties: A review.
Bonto, AP, Tiozon, RN, Sreenivasulu, N, Camacho, DH
Ultrasonics sonochemistry. 2021;:105383
Abstract
As a green, nonthermal, and innovative technology, ultrasonication generates acoustic cavitation in an aqueous medium, developing physical forces that affect the starch chemistry and rice grain characteristics. This review describes the current information on the effect of ultrasonication on the morphological, textural, and physicochemical properties of rice starch and grain. In a biphasic system, ultrasonication introduced fissures and cracks, which facilitated higher uptake of water and altered the rice starch characteristics impacting textural properties. In wholegrain rice, ultrasonic treatment stimulated the production of health-related metabolites, facilitated the higher uptake of micronutrient fortificants, and enhanced the palatability by softening the rice texture. This review provides insights into the future direction on the utilization of ultrasonication for the applications towards the improvement of rice functional properties.
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Impact of the Physicochemical Composition and Microbial Diversity in Apple Juice Fermentation Process: A Review.
Al Daccache, M, Koubaa, M, Maroun, RG, Salameh, D, Louka, N, Vorobiev, E
Molecules (Basel, Switzerland). 2020;(16)
Abstract
Fermented apple beverages are produced all over the world with diverse characteristics associated with each country. Despite the diversifications, cider producers are confronted with similar issues and risks. The nature of the raw material, also known as the fermentation medium, plays a key role in fermentation. A well-defined composition of apples is, therefore, required to produce cider with good quality. In addition, ferment and its metabolism are important factors in the fermentation process. The producers of cider and other alcoholic beverages are looking in general for novel yeast strains or for the use of native strains to produce "authentic" and diversified beverages that are distinct from each other, and that attract more and more consumers. Research articles on cider production are infrequent compared to wine production, especially on the impact of the chemical composition and microbial diversity of apples on fermentation. Even though the processing of fermented beverages is close in terms of microbial interactions and production, the study of the specific properties of apples and the production challenges of cider production is advantageous and meaningful for cider producers. This review summarizes the current knowledge on apple composition and the impact of the must composition on fermentation and yeast growth. In addition, the microbial diversity of cider, activities, and its influence on fermentation are reviewed.
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6.
Priority Actions to Advance Population Sodium Reduction.
Ide, N, Ajenikoko, A, Steele, L, Cohn, J, J Curtis, C, Frieden, TR, Cobb, LK
Nutrients. 2020;(9)
Abstract
High sodium intake is estimated to cause approximately 3 million deaths per year worldwide. The estimated average sodium intake of 3.95 g/day far exceeds the recommended intake. Population sodium reduction should be a global priority, while simultaneously ensuring universal salt iodization. This article identifies high priority strategies that address major sources of sodium: added to packaged food, added to food consumed outside the home, and added in the home. To be included, strategies needed to be scalable and sustainable, have large benefit, and applicable to one of four measures of effectiveness: (1) Rigorously evaluated with demonstrated success in reducing sodium; (2) suggestive evidence from lower quality evaluations or modeling; (3) rigorous evaluations of similar interventions not specifically for sodium reduction; or (4) an innovative approach for sources of sodium that are not sufficiently addressed by an existing strategy. We identified seven priority interventions. Four target packaged food: front-of-pack labeling, packaged food reformulation targets, regulating food marketing to children, and taxes on high sodium foods. One targets food consumed outside the home: food procurement policies for public institutions. Two target sodium added at home: mass media campaigns and population uptake of low-sodium salt. In conclusion, governments have many tools to save lives by reducing population sodium intake.
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Generation of bioactive peptides during food processing.
Toldrá, F, Reig, M, Aristoy, MC, Mora, L
Food chemistry. 2018;:395-404
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Abstract
Large amounts of peptides are naturally generated in foods through the proteolysis phenomena taking place during processing. Such proteolysis is carried out either by endogenous enzymes in ripened foods or by the combined action of endogenous and microbial enzymes when fermented. Food proteins can also be isolated and hydrolysed by peptidases to produce hydrolysates. endo-peptidases act first followed by the successive action of exo-peptidases (mainly, tri- and di-peptidylpeptidases, aminopeptidases and carboxypeptidases). The generated peptides may be further hydrolysed through the gastrointestinal digestion resulting in a pool of peptides with different sequences and lengths, some of them with relevant bioactivity. However, these peptides should be absorbed intact through the intestinal barrier and reach the blood stream to exert their physiological action. This manuscript is reporting the enzymatic routes and strategies followed for the generation of bioactive peptides.
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Foodborne viruses: Detection, risk assessment, and control options in food processing.
Bosch, A, Gkogka, E, Le Guyader, FS, Loisy-Hamon, F, Lee, A, van Lieshout, L, Marthi, B, Myrmel, M, Sansom, A, Schultz, AC, et al
International journal of food microbiology. 2018;:110-128
Abstract
In a recent report by risk assessment experts on the identification of food safety priorities using the Delphi technique, foodborne viruses were recognized among the top rated food safety priorities and have become a greater concern to the food industry over the past few years. Food safety experts agreed that control measures for viruses throughout the food chain are required. However, much still needs to be understood with regard to the effectiveness of these controls and how to properly validate their performance, whether it is personal hygiene of food handlers or the effects of processing of at risk foods or the interpretation and action required on positive virus test result. This manuscript provides a description of foodborne viruses and their characteristics, their responses to stress and technologies developed for viral detection and control. In addition, the gaps in knowledge and understanding, and future perspectives on the application of viral detection and control strategies for the food industry, along with suggestions on how the food industry could implement effective control strategies for viruses in foods. The current state of the science on epidemiology, public health burden, risk assessment and management options for viruses in food processing environments will be highlighted in this review.
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Impact of food processing and detoxification treatments on mycotoxin contamination.
Karlovsky, P, Suman, M, Berthiller, F, De Meester, J, Eisenbrand, G, Perrin, I, Oswald, IP, Speijers, G, Chiodini, A, Recker, T, et al
Mycotoxin research. 2016;(4):179-205
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Abstract
Mycotoxins are fungal metabolites commonly occurring in food, which pose a health risk to the consumer. Maximum levels for major mycotoxins allowed in food have been established worldwide. Good agricultural practices, plant disease management, and adequate storage conditions limit mycotoxin levels in the food chain yet do not eliminate mycotoxins completely. Food processing can further reduce mycotoxin levels by physical removal and decontamination by chemical or enzymatic transformation of mycotoxins into less toxic products. Physical removal of mycotoxins is very efficient: manual sorting of grains, nuts, and fruits by farmers as well as automatic sorting by the industry significantly lowers the mean mycotoxin content. Further processing such as milling, steeping, and extrusion can also reduce mycotoxin content. Mycotoxins can be detoxified chemically by reacting with food components and technical aids; these reactions are facilitated by high temperature and alkaline or acidic conditions. Detoxification of mycotoxins can also be achieved enzymatically. Some enzymes able to transform mycotoxins naturally occur in food commodities or are produced during fermentation but more efficient detoxification can be achieved by deliberate introduction of purified enzymes. We recommend integrating evaluation of processing technologies for their impact on mycotoxins into risk management. Processing steps proven to mitigate mycotoxin contamination should be used whenever necessary. Development of detoxification technologies for high-risk commodities should be a priority for research. While physical techniques currently offer the most efficient post-harvest reduction of mycotoxin content in food, biotechnology possesses the largest potential for future developments.
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10.
Product Structuring for Sodium Reduction.
Goh, AS
Journal of nutritional science and vitaminology. 2015;:S166-7
Abstract
Salt is an essential ingredient to enhance the flavour of food products. However, high salt intake has been linked to cardiovascular diseases. Methods to reduce salt in food products based on product structuring have gained increasing attention in the past few years. These methods attempt to deliver as much salt as possible from the food products to the taste buds without increasing the salt content in the products. This paper gives a brief review of the different product structuring methods that influence how the salt is released from the food matrix and/or how the salt is transported to the taste receptors.