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Probiotic drink from fermented mango (Mangifera indica) with addition of spinach flour (Amaranthus) high in polyphenols and food fibre

Published online by Cambridge University Press:  06 May 2021

N. Mayulu
Affiliation:
Food and Nutrition Department of Sam Ratulangi University, Kampus Unsrat Bahu Street, Manado96115, Indonesia
Y. A. Assa
Affiliation:
Food and Nutrition Department of Sam Ratulangi University, Kampus Unsrat Bahu Street, Manado96115, Indonesia
B. J. Kepel
Affiliation:
Faculty of Medicine, Sam Ratulangi University, Kampus Unsrat Bahu Street, Manado, Indonesia
F. Nurkolis
Affiliation:
Department of Biological Sciences, Faculty of Sciences and Technology, State Islamic University of Sunan Kalijaga, Indonesia
R. Rompies
Affiliation:
Department of Pediatrics, Sam Ratulangi University/Prof. dr. R. D. Kandou Hospital Manado, Raya Tanawangko 56 street, Manado, Indonesia
S. Kawengian
Affiliation:
Food and Nutrition Department of Sam Ratulangi University, Kampus Unsrat Bahu Street, Manado96115, Indonesia
H. Natanael
Affiliation:
Department of Pediatrics, Sam Ratulangi University/Prof. dr. R. D. Kandou Hospital Manado, Raya Tanawangko 56 street, Manado, Indonesia
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2021

Mango (Mangifera indica) is a tropical fruit that grows abundantly in Indonesia and has a great potential to be developed into a high-value product rather than being eaten raw, namely as a functional drink. There are several scientific studies that show mango(Reference Tabrizi, Tamtaji and Mirhosseini1) to be a fruit rich in dietary fibre, vitamin C, vitamin E, β-carotene, and polyphenols of the types of quercetin and kaempferol that have the potential to improve lipid profiles and lower blood glucose. In addition, spinach (Amaranthus) is a vegetable that has a nutritional content similar to mangoes and even more, such as high polyphenols. However, there is still little use of it into fermented beverage products. This study aims to process or formulate and utilize mango pulp and spinach flour to become functional food products in the form of fermented drinks. In addition, it is also to determine the levels of polyphenols (especially quercetin and kaempferol) and the total dietary fibre in these fermented products in vitro.

The formulation was carried out on 3 samples with different amounts (mango pulp: spinach flour: water) for 3 samples each S1 (900: 100: 0), S2 (850: 150: 150) and S3 (800 : 200: 200). Each sample was inoculated with Lactobacillus paracasei for 60 hours and incubated in anaerobic conditions with a temperature of 30-32°C. Analysis of polyphenols (quercetin and kaempferol) using the High Performance Liquid Chromatography (HPLC) technique at a wavelength of 415 nm with triplo repeat per sample. Determination of dietary fiber content using the AOAC method. The statistical test is to determine the difference between mango and water formulations on the polyphenols content of fermented products used One Way Anova.

It was found that the amount of quercetin and kaempferol in S1 was 55.89±0.01 μg/g and 59.98±0.02 μg/g, respectively, for S2 were 40.66±0.02 μg/g and 50.42±0.04 μg/g, and in S3 51.90±0.05 μg/g and 48.88±0.08μg/g. There was a significant difference (P<0.05) which determined the polyphenols content between the sample formulations. The content of dietary fibre at S1 was 11.70±1.00%, S2 was 9.80±0.06% and at S3 was 10.01±0.01%. The average ash content of the three samples was 3.84±0.04% and water content was 42.01±2.01%.

The highest polyphenols content was found in S1 samples with the highest levels of dietary fibre as well. Therefore, mango and spinach have great potential to be developed into fermented functional foods or probiotic drinks. The content of polyphenols (quercetin and kaempferol) in these fermented products can be a great alternative to ready-to-drink drinks, because these types of polyphenols (quercetin and kaempferol) have the ability to improve lipid profiles and stabilize blood sugar fluctuations so that they can be anti-diabetics(Reference Ellong, Adenet and Rochefort2).

Acknowledgements

We thank to all of contributors for their outstanding help in formatting the abstract. The authors’ responsibilities were as follows—all authors: contributed to the writing and revisions contained in the abstract; and all authors have read and approved the final abstract. Personal funding from author

References

Tabrizi, R, Tamtaji, OR, Mirhosseini, N et al. (2020) Crit Rev Food Sci Nutr, 60(11), 18551868.CrossRefGoogle Scholar
Ellong, EN, Adenet, S & Rochefort, K (2015) Food Sci Nutr, 6(02), 242.Google Scholar