Functionalization of Ricotta cheese with powder of spirulina platensis: physicochemical, sensory, and microbiological properties

The microalga Spirulina platensis is recognized for its high nutritional value, particularly in terms of protein and bioactive compounds, and can be used to produce functional foods. The aim of this study was to develop a novel functional Ricotta cheese fortified with different amounts of spirulina...

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Bibliographic Details
Published in:International journal of food properties 2023-09, Vol.26 (1), p.1968-1983
Main Authors: Ismail, Hesham A., El-Sawah, Talaat H., Ayyash, Mutamed, Adhikari, Benu, Elkot, Wael F.
Format: Article
Language:English
Subjects:
Aerobic bacteria
Bioactive compounds
Carbohydrates
Cheese
Functional foods & nutraceuticals
functional ricotta cheese
Gallic acid
Lipids
microstructure
nutritional value
Nutritive value
Phenolic compounds
Powder
Proteins
sensory profile
Sensory properties
Spirulina platensis
Src protein
texture profile
β-Carotene
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Summary:The microalga Spirulina platensis is recognized for its high nutritional value, particularly in terms of protein and bioactive compounds, and can be used to produce functional foods. The aim of this study was to develop a novel functional Ricotta cheese fortified with different amounts of spirulina powder (SRC) (0.25 , 0.5, 0.75, and 1.0) g/100 g cheese and to evaluate the effects on the cheese's physicochemical, sensorial, and microbiological properties over a 21- day storage period at 5°C. Spirulina platensis had 70.4, 5.02, 6.77, 5.43, and 12.06 g/100 g (as drymatter) for protein, lipids, ash, fiber, and carbohydrate, respectively.           It also had a high concentration of bioactive compounds, including 240.50 mg (as Gallic acid equivalents/100 g) of phenolic compounds and 30.79 mg/100 g of β-carotene. Ricotta cheese fortified with spirulina powder had a significant increase in protein, fat, ash, fibers, carbohydrates, and mineral contents. The total phenols, β-carotene, and 2,2-Diphenyl-1-picrylhydrazyl scavenging capacity of SRC also increased when compared with control. The textural properties of SRC cheese were improved, and it exhibited a more attractive color and desirable microstructure. The number of aerobic bacteria increased in SRC cheese, while no yeasts or mold were detected in all fresh cheese samples, but they appeared on the 14 th day for the control sample and on the 21 st day for the Ricotta cheese fortified with spirulina powder sample. Coliform bacterial cells were not observed in all fresh cheese or during storage. The addition of 0.75 g/100 g dry-solids SPP is found to be optimum in terms of color and other sensorial properties.
ISSN:1094-2912
1532-2386
DOI:10.1080/10942912.2023.2238916