Phenolic acids prolife and antioxidant properties of bread enriched with sprouted wheat flour

Gawlik‐Dziki, Urszula; Dziki, Dariusz; Pietrzak, Wioleta; Nowak, Renata

doi:10.1111/jfbc.12386

Cited by 11 publications

(7 citation statements)

References 31 publications

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“…Substitution of high levels of regular flour by flour from sprouted cereals (more than 20% to 30%) and/or when longer sprouting times are applied (4 to 5 days, 15 to 28°C) results in breads with much lower overall quality and acceptability. Indeed, the resultant breads have lower volumes (15% to 40%) mainly due to loss of structure by partial gluten hydrolysis (Gawlik- Dziki, Dziki, & Pietrzak, 2017;Hugo, Rooney, & Taylor, 2000;Ichinose et al, 2001;Kaur et al, 2002;Mäkinen & Arendt, 2012;Mäkinen et al, 2012). In addition, the bread crumb is sticky and wet as a result of the high αand β-amylase levels, as extensive starch hydrolysis reduces flour water-holding capacity (Hugo et al, 2000) and leads to high levels of water-soluble dextrins (Every & Ross, 1996).…”

Section: Techno-functional Implications Of Sprouting Grainsmentioning

confidence: 99%

Impact of Cereal Seed Sprouting on Its Nutritional and Technological Properties: A Critical Review

Lemmens

Moroni

Pagand

et al. 2018

Comp Rev Food Sci Food Safe

185

177

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Sprouting induces activation and de novo synthesis of hydrolytic enzymes that make nutrients available for plant growth and development. Consumption of sprouted grains is suggested to be beneficial for human health. Positive consumer perceptions about sprouted cereals have resulted in new food and beverage product launches. However, because there is no generally accepted definition of “sprouting,” it is unclear when grains are to be called sprouted. Moreover, guidelines about how much sprouted grain material food products should contain to exert health benefits are currently lacking. Accordingly, there is no regulatory base to develop appropriate food labeling for “sprouted foods.” This review describes the nutritional and technological properties of sprouted grains in relation to processing conditions and provides guidelines to optimize sprouting practices in order to maximize nutritive value. Relatively long sprouting times (3 to 5 days) and/or high processing temperatures (25 to 35 °C) are needed to maximize the de novo synthesis and/or release of plant bioactive compounds. Nutrient compositional changes resulting from sprouting are often associated with health benefits. However, supportive data from clinical studies are very scarce, and at present it is impossible to draw any conclusion on health benefits of sprouted cereals. Finally, grains sprouted under the above‐mentioned conditions are generally unfit for use in traditional food processing and it is challenging to use sprouted grains as ingredients without compromising their nutrient content. The present review provides a basis for better defining what “sprouting” is, and to help further research and development efforts in this field as well as future food regulations development.

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Section: Techno-functional Implications Of Sprouting Grainsmentioning

confidence: 99%

Impact of Cereal Seed Sprouting on Its Nutritional and Technological Properties: A Critical Review

Lemmens

Moroni

Pagand

et al. 2018

Comp Rev Food Sci Food Safe

185

177

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“…Sprouts and microgreens are subject to different processing avenues, such as freezing, drying, waving, microwaving, frying, toasting, boiling, or centrifugation (for sprout juice production), to arrive at final applications where, ideally, phytochemical content, and overall nutritional value are fully retained. This is particularly important when sprouts represent the source of supplements to improve food quality, as in sprouted bread [127], other bakery products, and juices.…”

Section: Sanitization and Processingmentioning

confidence: 99%

“…Beside fresh consumption, sprouts and microgreens are suitable for creating novel food products, such as juices [159], fermented drinks (i.e., juices [160]), or foods such as breakfast or snack foods, seasonings (e.g., vinegar or sauce), and weaning foods [161], probiotic beverage or foods [162], yogurt [163], powder enriched flours [164,165], and bakery products [127,[166][167][168], and, more recently, tea [169], as well as food matrices [170]. Furthermore, the use in flour mixture of powder from sprouted wheat pomace, as by-product from juice production, was recently evaluated and found to increase of nutritional value in relation to wheat flour [171].…”

Section: Post-harvest Shelf Life and Processingmentioning

confidence: 99%

Sprouts and Microgreens: Trends, Opportunities, and Horizons for Novel Research

et al. 2020

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Sprouts and microgreens have attracted tremendous interest across multiple disciplines in recent years. Here, we critically review the most recent advances to underscore research prospects and niches, and related challenges, not yet addressed or fully pursued. In particular, we report a number of themes that merit special attention as a result of their relevance to plant science, nutrition, health, and zootechnics: (1) species not yet or inadequately investigated, such as wild plants, and fruit tree strains; (2) abiotic and biotic factors, and biostimulants, for elicitation strategies and metabolic engineering; (3) sanitization and processing technologies to obtain high-quality products; (4) digestive fate and impact of bioactive elements, antinutrients, and allergens on human nutrition; (5) experimental challenges to researching health benefits; (6) the opportunity to generate natural product libraries for drug discovery; and (7) sprouts in animal feeding to improve both animal health and the nutritional value of animal products for the human diet. The convergence of different themes involving interdisciplinary competencies advocate fascinating research pursuits, for example, the elicitation of metabolic variants to generate natural product collections for identification and selection of bioactive chemicals with a role as nutraceuticals, key constituents of functional foods, or interactive partners of specific drugs.

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“…Sprouts are generally produced homemade or for ready-to-eat market, but can also be dried and ground to a fine powder to be used as supplements. The use of wheat sprout powder (WSP) to enrich wheat flours has been proposed recently (Žilić et al, 2014;Gawlik-Dziki et al, 2017;Świeca et al, 2017). In particular, Gawlik- replaced a refined wheat flour with 5, 10, 15, 20% (w:w) of WSP and observed an increase of phenolics in breads, although they warned that the supplementation of WSP at high concentration may negatively influence the baking properties (Abderrahim et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Phenolic content and antioxidant activity of wholegrain breads from modern and old wheat (Triticum aestivum L.) cultivars and ancestors enriched with wheat sprout powder

Falcinelli

Calzuola²,

Gigliarelli

et al. 2018

Ital J Agronomy

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In this study, we compared nutritional characteristics of breads from wholegrain flours of three modern cultivars, four old cultivars and one landrace population of common wheat (Triticum aestivum), one Khorasan (Triticum turgidum var turanicum) accession and one einkorn (Triticum monococcum) cultivar. One bread from refined flour was also included. All flours were enriched or not with 5% (w:w) of wheat sprout powder (WSP) to obtain enriched breads (EB) or control breads (CB), respectively. Total phenolics and flavonoids, reducing power, radical scavenging and thiobarbituric acid reactive substances production inhibition were measured on bread aqueous extracts. CB from old cultivars were generally higher in phenolic content and antioxidant activity than CB from modern cultivars. All EB showed increased phenolic content and antioxidant activity compared to CB, but the increase varied with the source flour, despite WSP supplementation was the same for all breads. In particular, the increase in phenolic content was much relevant for EB of modern cultivars.

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Phenolic acids prolife and antioxidant properties of bread enriched with sprouted wheat flour

Cited by 11 publications

References 31 publications

Impact of Cereal Seed Sprouting on Its Nutritional and Technological Properties: A Critical Review

Impact of Cereal Seed Sprouting on Its Nutritional and Technological Properties: A Critical Review

Sprouts and Microgreens: Trends, Opportunities, and Horizons for Novel Research

Phenolic content and antioxidant activity of wholegrain breads from modern and old wheat (Triticum aestivum L.) cultivars and ancestors enriched with wheat sprout powder

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