Study of Microbiological Quality and Antioxidant Activity Beras Kencur Drink with Heating Process

https://doi.org/10.22146/ifnp.29725

Sakina Yeti Kiptiyah(1*), Eni Harmayani(2), Umar Santoso(3)

(1) Doctoral student of Food Science, Universitas Gadjah Mada
(2) Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia
(3) Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada, Yogyakarta, Indonesia
(*) Corresponding Author

Abstract


Beras kencur drink is well known as Indonesian herbal drink made from kencur (Kaempferia galanga L.) mixed with other functional ingredients through minimally-processing. The aim of this research was to evaluate microbiological quality and determine antioxidant activity of beras kencur drink with blanching and pasteurization treatment. Five samples were subjected to microbiological analysis by total plate count (TPC). Furthermore, the variation of heat treatment is blanching (5 and 10 minutes) and pasteurization. The sample were evaluated for pH value, total dissolved solids, total microbial, antioxidant activity, total phenolic content, total flavonoid content, and ferric reducing power. The results showed that five samples of beras kencur drink had varied total microbial amount while the samples treated with blanching and pasteurization had lower total microbial number. Samples with blanching kencur 5 minutes, blanching kencur 10 minutes and pasteurization had antioxidant activity of 80,30 %RSA, 64,78 %RSA and 58,24 %RSA, respectively, total phenolic content 1747,17 mgGAE/L, 1610 mgGAE/L, and 1465,13 mgGAE/L, respectively, total flavonoid content of 169,49 mgEK/L, 160,36 mgEK/L, and 136,31 mgEK/L, and ferric reducing power -1186,92 mgAA/L, 960,50 mgAA/L, and 897,61 mgAA/L. Beras kencur drink with blanching and pasteurization process had lower total microbial number and can improve antioxidant activity.

Keywords


beras kencur, microbiological, antioxidant, total microbial

Full Text:

PDF


References

Chan, E.W.C., Lim, Y.Y., Wong, L.F., Lianto, F.S., Wong, S.K., Lim, K.K., Joe, C.E., and Lim, Y.T. 2008. Antioxidant and tyrosinase inhibition properties of leaves and rhizomes of ginger species. J Food Chem 109: 477-483.

Kwan, Y., Apostolidis, I., and Shetty, K. 2007. Traditional Diet of Americans For Management Of Diabetes And Hypertension. J Medicinal Food. 10: 266-275.

Lee, K.W., Kim, W.J., Lee H. J., Lee, C.Y. 2003. Cocoa Has More Phenolic Phytochemicals and a Higher Antioxidant Capacity than Teas and Red Wine. Journal of Agricultural Food Chemistry 51: 7292-7295.

Maturin, L., Peeler, J.T. 2001. Aerobic Plate Count. Di Dalam: Bacteriological Analytical Manual Online. Center for Food Safety and Applied Nutrition. Food and Drug Administration. US.

Ortega, N., Romero, M., Macia, A., Reguant, J., Angles, N., Morello, J., and Motilva, M. 2008. Obtention and Characterization of Phenolic Extract from Different Cocoa Sources. Journal of Agricultural. Food Chemistry 56: 9621-9627.

Yan, L.Y., Teng, L.T. and Jhi, T.J. 2006. Antioxidant properties of guava fruit: comparison with some local fruits. Sunway Academic Journal 3: 9-20.

Robinson,T. 1995. Kandungan Organik Tumbuhan Tinggi,Terjemahan Kokasih Padmawinata. Penerbit ITB. Bandung.

Molyneux, P. 2004. The use of the stable free radical diphenyl picryl-hydrazyl (DPPH) for estimating antioxidant activity. Songklanakarin J Sci Technol 26 (2): 211-219.

Winarsi, H. 2007. Antioksidan Alami & Radikal Bebas: Potensi dan Aplikasinya dalam Kesehatan. Penerbit Kanisius. Yogyakarta.

Tewtrakul, S., Yuenyongsawad, S., Kummee, S., and Atsawajaruwan, L. 2005. Chemical components and biological activities of volatile oil of Kaempferia galanga Linn. Songklanakarin J Sci Technol 27 (2): 503-507.

Medyaningsih, E. 2009. Potensi Ampas Nanas Sebagai Sumber Antioksidan: Karakterisasi Antioksidan Ampas Nanas dari Nanas yang telah Mendapat Perlakuan Blanching. Skripsi. Fakultas Teknologi Pertanian, Universitas Katolik Widya Mandala. Surabaya.

Pujimulyani, D., Raharjo, S., Marsono, Y., dan Santoso, U. 2010. Aktivitas Antioksidan dan Kadar Senyawa Fenolik pada Kunir Putih (Curcuma mangga Val.) Segar dan Setelah Blanching. Jurnal Agritech 30 (2): 68-74.

Pinelo, M., Manzocco, L., Nuñez, M.J. and Nicoli, M.C. 2004. Solvent effect on quercetin antioxidant capacity. Food Chemistry 88: 201-207.

Widowati. 2008. Potensi Antioksidan sebagai Antidiabetes. Journal KM. 7(2:)1-11.

Cuppett, S., Schrepf, M. and Hall, C. 1954. Natural Antioxidant – Are They Reality. Dalam Foreidoon Shahidi: Natural Antioxidants, Chemistry, Health Effect, and Applications. AOCS Press. Champaign. Illinois: 12-24.

Coskun, O., Kanter, M., Korkmaz, A., and Other, S. Quercetin, a flavonoid antioxidant, prevents and protects streptozotocin-induced oxidative stress and beta-cell damage in rat pancreas. Pharmacol Res 51(2):117-23.

Pinent, M., Castell, A., Baiges, I., Montagut, G., and Arola, L. 2008. Bioactivity of Flavonoid on Insulin-secreting Cells. Compr Rev Food Sci Food Safety 7: 299-308.

Yue, X. dan Xu, Z. 2008. Changes of anthocyanins, antho­cyanidins, antioxidant activity in bilberry extract during dry heating. Journal of Food Science 73: 494-499.

Wilmsen, P.K., Spada, D.S., and Salvador, M. 2005. Antioxidant activity of flavanoid hesperidin in chemical and biological systems. J. Agric. Food Chem., 53,4757-4761.

Halvorsen, B. L., Holte, K., Myhrstad, M.C.W., Barikmo, I., Hvattum, E., Reberg, S. F., Wold, A. B., Haffner, K., Baugerod, H., Andersen, L. F., Moskaug, O., Jacobs, D. R., and Blomhoff, R. 2002. A Systematic Screening of Total Antioxidant In Dietary Plants. J. Nutrition. 132: 461-471.

Hart, H. 1983. Kimia Organik. Houngton Mifflin Co. Michigan State University. USA.

Kim, O.S. 2005. Radical Scavenging capacity and antioxidant activity of the E Vitamer fraction in rice bran. Journal of Food Science 70: 208-213.

Ebrahimzadeh, M.A., Pourmorad, F. and Hafezi, S. 2008. Antioxidant activities of Iranian corn silk. Turkish Journal of Biology 32: 43-49.

Seow, C.C., and Gwee, C.N. 1997. Coconut milk: Chemistry and technology. International Journal of Food Science and Technology. 32:189-201.

Ejechi, B.O., Souzey,J.A and Akpomedaye, D.E. 1998. Microbial stability of mango juice preserved by combined application of mild heat and extracts of two tropical spices. J.Food Protection 61(6): 725-727.

Widaningrum dan Sunarlim, R. 2005. Cara Pemanasan, Suhu dan Lama Penyimpanan Terhadap Masa Simpan Susu Kambing. Seminar Nasional Teknologi Peternakan dan Veteriner.



DOI: https://doi.org/10.22146/ifnp.29725

Article Metrics

Abstract views : 3675 | views : 3711

Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Indonesian Food and Nutrition Progress (print ISSN 0854-6177, online ISSN 2597-9388) is published by the Indonesian Association of Food Technologist in collaboration with Department of Food and Agricultural Product Technology, Faculty of Agricultural Technology, Universitas Gadjah Mada.

Journal of Indonesian Food and Nutrition Progress have been indexed by: 

   

 

This works is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.