&lt;em&gt;Cistus incanus&lt;/em&gt; L. as an Innovative Functional Additive to Wheat Bread

Cacak-Pietrzak, G.; Różyło, Renata; Dziki, Dariusz; Gawlik‐Dziki, Urszula; Sułek, A.; Biernacka, Beata

doi:10.20944/preprints201907.0313.v1

2019

DOI: 10.20944/preprints201907.0313.v1

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<em>Cistus incanus</em> L. as an Innovative Functional Additive to Wheat Bread

G. Cacak-Pietrzak

Renata Różyło

Dariusz Dziki

et al.

Abstract: Cistus incanus L. (CI) has been proposed as an innovative functional supplement of food products, and hence the present study aimed to evaluate the effect of the addition of dried CI on the properties of bread. Bread was prepared from white wheat flour supplemented with the addition of 1%, 2%, 3%, 4%, and 5% of ground CI. After the completion of baking process, various characteristics of the obtained bread product, such as yield, volume, porosity, acidity, color, and texture, were evaluated. In addition, total… Show more

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Cited by 9 publications

References 39 publications

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Polyphenols and terpenes in Mediterranean plants: an overview of their roles and possible applications

Pasquini¹,

Detti²,

Ferrini³

et al. 2021

Italus Hortus

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The Mediterranean basin represents one of the key hotspots in terms of biodiversity and endemic floristic richness in the world (i.e., a reservoir of plant biodiversity). With ongoing climate change, the Mediterranean vegetation is increasingly exposed to different sources of environmental stresses, such as drought, heat, and solar irradiance. To cope with these severe abiotic stresses, beside morpho-anatomical traits, Mediterranean endemic species enhance the production of secondary metabolites, especially terpenes and polyphenols. These compounds have different roles in plants. Terpene and polyphenol compounds play a key antioxidant function (quenching Reactive Oxygen Species) thus improving ozone and drought tolerance, while also acting as pollinator attractors and repellents for dangerous herbivorous insects (contributing to the taste and odour of different plant tissues). In addition to their roles in plants, these bioactive compounds provide multiple health-promoting benefits for humans. Indeed, they can be used in different types of industries, such as pharmaceutical, nutraceutical, green (as supplements to fossil fuel and insecticides) and cosmetic industries. In conclusion, these compounds may be considered as key innovative components in different technological domains

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Polyphenols and terpenes in Mediterranean plants: an overview of their roles and possible applications

Pasquini¹,

Detti²,

Ferrini³

et al. 2021

Italus Hortus

View full text Add to dashboard Cite

show abstract

Dandelion Flowers as an Additive to Wheat Bread: Physical Properties of Dough and Bread Quality

et al. 2022

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Dandelion flowers (DF) are a rich source of many phytochemicals which can reduce oxidative stress in the human body. The aim of this study was to assess the influence of dried and powdered DF addition into wheat flour (WF) on dough and bread properties. WF was replaced with DF at levels 0, 1, 2, 3, 4, 5 and 6%. Physical properties of dough and quality of control and supplemented bread were studied. The addition of DF increased water absorption of flour, development time and dough stability during mixing. However, these changes had no positive effect on bread quality. With an increase in the proportion of DF in the bread recipe, the volume of loaves and lightness of crumb decreased while its hardness and yellowness increased. As a result of these changes, the overall sensory acceptability of DF-enriched bread decreased. On the other hand, supplementation of WF with DF increased minerals, fiber and fat content in bread. Most importantly, DF enhanced the antioxidant capacity of bread and increased content of phenolics. Total phenolic content ranged from 1.00 mg GAE/g dry mass (DM) for control bread to 3.45 mg GAE/g DM when wheat flour was replaced with 6% of DF. To summarize, we showed that DF can be a valuable ingredient for bread fortification. However, the amount of WF replaced with DF should not exceed 2–3% while taking into account the sensory results.

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Re-Thinking Table Salt Reduction in Bread with Halophyte Plant Solutions

et al. 2023

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Sodium intake higher than it is physiologically necessary has been associated with some non-communicable diseases such as hypertension, cardiovascular disease, and stroke. Bread is commonly consumed and is a major source of sodium in the human diet. Among the interventions to reduce the salt content in bread, the incorporation of salty taste halophyte powder could be a promising strategy. In the present work, Sarcocornia perennis was incorporated as a food ingredient to substitute the salt (sodium) of white wheat bread (1.2% NaCl/0.47% sodium, flour basis). Powdered dried S. perennis was incorporated into bread by replacing the same amount of sodium (0.47%, flour basis) and half of the sodium concentration (0.235%, flour basis), respectively, B100 and B50 bread samples. The bread samples were analyzed to evaluate the impact of the sodium chloride replacement by S. perennis powder on total baking loss, specific volume, crumb color, textural properties, microbial activity, nutritional and mineral composition and sensory evaluation. The incorporation of S. perennis increased the specific volume but had no relevant impact on the textural properties of bread. Furthermore, the substitution of sodium chloride by S. perennis powder allowed a more colored (greenish and yellowish) and dark crumb leading to a lower whiteness index. Compared with control bread, the addition of S. perennis powder promoted a significant increase of all bread’s nutrients and minerals, namely calcium, phosphor, iron, and manganese. Besides the improvement of bread quality, B100, and B50 bread samples were both sensorily well accepted and with similar scores to all the evaluated sensorial attributes. Moreover, the reduction of sodium to half (0.235% sodium (flour basis) in bread (B50) did not affect the acceptability of tasters, as compared with B100 (0.47% sodium (flour basis)). Both new bread formulation has microbiological quality as ready-to-eat product. However, taking into account greater stability over time for microbial spoilage, mainly caused by fungi and yeasts, B50 bread is more promising. The B50 bread sample is also a potential strategy to obtain a sodium reduction of 50% in bread, which could be essential to reduce the overall sodium daily intake and bring important economic and public health benefits.

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<em>Cistus incanus</em> L. as an Innovative Functional Additive to Wheat Bread

Cited by 9 publications

References 39 publications

Polyphenols and terpenes in Mediterranean plants: an overview of their roles and possible applications

Polyphenols and terpenes in Mediterranean plants: an overview of their roles and possible applications

Dandelion Flowers as an Additive to Wheat Bread: Physical Properties of Dough and Bread Quality

Re-Thinking Table Salt Reduction in Bread with Halophyte Plant Solutions

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