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Ms. Viki Oktavirina
Universitas Gadjah Mada, Indonesia

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Research Keywords & Expertise

0 extraction
0 Food control
0 high-intensity sweeteners
0 Rapid analysis
0 multianalyte analysis

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Review
Published: 24 May 2021 in Molecules
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Sweeteners have been used in food for centuries to increase both taste and appearance. However, the consumption of sweeteners, mainly sugars, has an adverse effect on human health when consumed in excessive doses for a certain period, including alteration in gut microbiota, obesity, and diabetes. Therefore, the application of non-nutritive sweeteners in foodstuffs has risen dramatically in the last decade to substitute sugars. These sweeteners are commonly recognized as high-intensity sweeteners because, in a lower amount, they could achieve the same sweetness of sugar. Regulatory authorities and supervisory agencies around the globe have established the maximum amount of these high-intensity sweeteners used in food products. While the regulation is getting tighter on the market to ensure food safety, reliable analytical methods are required to assist the surveillance in monitoring the use of high-intensity sweeteners. Hence, it is also necessary to comprehend the most appropriate method for rapid and effective analyses applied for quality control in food industries, surveillance and monitoring on the market, etc. Apart from various analytical methods discussed here, extraction techniques, as an essential step of sample preparation, are also highlighted. The proper procedure, efficiency, and the use of solvents are discussed in this review to assist in selecting a suitable extraction method for a food matrix. Single- and multianalyte analyses of sweeteners are also described, employing various regular techniques, such as HPLC, and advanced techniques. Furthermore, to support on-site surveillance of sweeteners’ usage in food products on the market, non-destructive analytical methods that provide practical, fast, and relatively low-cost analysis are widely implemented.

ACS Style

Viki Oktavirina; Nadhila Prabawati; Rohmah Fathimah; Miguel Palma; Kiki Kurnia; Noviyan Darmawan; Brian Yulianto; Widiastuti Setyaningsih. Analytical Methods for Determination of Non-Nutritive Sweeteners in Foodstuffs. Molecules 2021, 26, 3135 .

AMA Style

Viki Oktavirina, Nadhila Prabawati, Rohmah Fathimah, Miguel Palma, Kiki Kurnia, Noviyan Darmawan, Brian Yulianto, Widiastuti Setyaningsih. Analytical Methods for Determination of Non-Nutritive Sweeteners in Foodstuffs. Molecules. 2021; 26 (11):3135.

Chicago/Turabian Style

Viki Oktavirina; Nadhila Prabawati; Rohmah Fathimah; Miguel Palma; Kiki Kurnia; Noviyan Darmawan; Brian Yulianto; Widiastuti Setyaningsih. 2021. "Analytical Methods for Determination of Non-Nutritive Sweeteners in Foodstuffs." Molecules 26, no. 11: 3135.

Review
Published: 01 April 2021 in Horticulturae
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Edible flowers have been widely consumed for ages until now. The attractive colors and shapes, exotic aroma, and delightful taste make edible flowers very easy to attain. Moreover, they also provide health benefits for consumers due to the unique composition and concentration of antioxidant compounds in the matrices. Knowing the bioactive compounds and their functional properties from edible flowers is necessary to diversify the usage and reach broader consumers. Therefore, this reported review could be useful for functional product development, engaging the discussed edible flowers. We present a comprehensive review of edible flower composition and the functional properties of their antioxidant compounds, mainly phenolics.

ACS Style

Nadhila B. Prabawati; Viki Oktavirina; Miguel Palma; Widiastuti Setyaningsih. Edible Flowers: Antioxidant Compounds and Their Functional Properties. Horticulturae 2021, 7, 66 .

AMA Style

Nadhila B. Prabawati, Viki Oktavirina, Miguel Palma, Widiastuti Setyaningsih. Edible Flowers: Antioxidant Compounds and Their Functional Properties. Horticulturae. 2021; 7 (4):66.

Chicago/Turabian Style

Nadhila B. Prabawati; Viki Oktavirina; Miguel Palma; Widiastuti Setyaningsih. 2021. "Edible Flowers: Antioxidant Compounds and Their Functional Properties." Horticulturae 7, no. 4: 66.