Email this article Analogue Rice as The Vehicle of Public Nutrition Diversity
(1) Syiah Kuala University
(2) Institut Pertanian Bogor
(3) Bogor Agriculture University
Abstract
Analogue rice is artificial rice product made from non-rice raw material by extrusion technique, which can be the vehicle of public nutrition diversity. The objectives of this research were to formulate and characterize analogue rice made from of sorghum, mocaf and other additional material. The method of analogue rice production is by twin screw extruder hot extrusion done in 2013. The research steps were the formulation of analogue rice, sensory evaluation to choose the best formula, and physico-chemical characterization of the best formula. The best two samples that were chosen are analogue rice made from 30% sorghum flour, 15% cornstarch, and 15% arenga starch (analogue rice B) and analogue rice made from 30% mocaf and 30% cornstarch (analogue rice F). Analogue rice B has 21.72% of amylose (medium) with 4% of dietary fiber while analogue rice F has low amylose which is 14.49%, make it more sticky, with 4.21% of dietary fiber.
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Alsaffar, A.A. 2011. Effect of Food Processing on the Resistant Starch Content of Cereals and Cereals Products-a review. International Journal of Food Science and Technology, 46:455-462.doi: 10.1111/j.1365-2621.2010.02529.x
[AOAC] Association of Official Analytical Chemist. 2006. Official Methods of Analysis of The Association of Official Analytical Chemist (6 ed.). Arlington: AOAC Inc
Asp, N.G., Johanson, C.G., Halimer, H. & Siljestrom. 1983. Rapid Enzymatic Assay of Insoluble and Soluble Dietary Fiber. Journal Agricultural Food Chemistry, 31:476-482
Awika, J.M., Yang, L., Browning, J.D., & Faraj, A. 2009. Comparative Antioxidant, Antiroliferative and Phase II Enzyme Inducing Potential OfSorghum (Sorghum bicolour) Varieties. Journal LWT-Food Science and Technology, 42:1041-1046
Budijanto, S. & Yuliyanti. 2012. Studi Persiapan Tepung Sorgum (Sorghum Bicolour L.Moench) dan Aplikasinya pada Pembuatan Beras Analog. Jurnal Teknologi Pertanian, 13(3):177-186
[CAC] Codex Alimentarius Commission. 2009. Alinorm 09/32/26. Appendix II.Report of the 30th Session of the Codex Committee on Nutrition and Foods for Special Dietary Uses. South Africa 3 – 7 November 2008]. Rome (IT): FAO. hlm 46. http://www.codexalimentarius.net/dowload/report/710/al32_26e.pdf
Cuenca, A.R., Suarez, M.J.V.&Aparicio, I.M. 2008. Soybean seeds and its by-product Okara as Sources of Dietary Fibre.Measurement by AOAC and Englyst Methods.Journal Food Chemistry,8:1099-1105.doi:10.1016/j.foodchem.2007.11.061
Denardin, C.C., Walter, M., da Silva, L.P., Souto, G.D. & Fagundes, C.A.A. 2007. Effects of Amylose Content of Rice Varieties on Glycemic Metabolism and Biological Responses in Rats. Journal Food Chemistry, 105:1474-1479. doi:10.1016/j.foodchem.2007.05.028
Denardin, C.C., Boufleur, N., Reckziegel, P., da Silva, L.P. & Walter, M. 2012. Amylose Content in Rice (Oryza Sativa) Affects Performance, Glycemic and Lipid Metabolism in Rats. Ciencia Rural, 42:381-387
Dykes, L.& Rooney, L.W. 2006.Sorghum and Millet Phenols and Antioxidants.Journal Cereal Science, 44:236-251
Eckel, R.H. 2003. A New Look at Dietary Protein in Diabetes. American Journal Clinical Nutrition,78:671-672
Ek, K.L., Copeland, L. & Miller, J.B. 2011.Glycemic Effect of Potatoes.Journal Food Chemistry,113:1230-1240
Elleuch, M., Bedigian, D., Roiseux, O., Besbes, S., Blecker, C. &Attia, H. 2011. Dietary Fibre and Fibre-Rich by-Products of Food Processing: Characterisation, Technological Functionality and Commercial Applications: A Review. Journal Food Chemistry, 124:411-421.doi:10.1016/j.foodchem.2010.06.077
Hawa, L.C., Lastriyanto, A. & Bangun S. 2010.Pengemasan Atmosfer Termodifikasi Beras Pecah Kulit dan Sosoh.Jurnal Teknologi Pertanian, 11(3):177-183
Herawati, H. & Widowati, S. 2009. Karakteristik Beras Mutiara dari Ubi Jalar (Ipomoea batatas).Buletin Teknologi Pascapanen Pertanian, 5(I): 39- 48
Herawati, H., Kusnandar, F., Adawiyah, D.R. & Budijanto, S. 2013. Teknologi Proses Pembentukan Butiran Beras Artificial Instan dengan Metode Ekstrusi. Pangan. 22(4):317-327. ISSN:0852-0607
Hu, P., Zhao, H., Duan, Z.Y., Zhang, L.L. & Wu, D.X. 2004. Starch Digestibility and the Estimated Glycemic Score of Different Types of Rice Differing in Amylose Contents. Journal Cereal Science,40(3):231-237.
Juliano, B.O. 1971. A simplified Assay for Milled Rice Amylose.Cereal Science Today, 16:334-360
Kaur, L., Singh, J., & Singh, N. 2004.Effect of Glycerol Monostearat on the Physic-Chemical, Thermal, Rheological and Noodle Making Properties of Corn and Potato Starch.Journal Food Hydrocolloids. 19:839-849
Listiyana, A.D., Mardiana, Prameswari GN. 2013. Obesitas Sentral dan Kadar Kolesterol Darah Total. Jurnal Kesehatan Masyarakat, 9(1):37-43.
Meilgaard, M.C, Civille, G.V. &Carr, B.T. 1999. Sensory Evaluation Techniques. [fourth etition]. Boca Raton: CRC Pr
Mishra, A., Mishra, H.N., & Rao, P.S. 2012.Preparation of Rice Analogues Using Extrusion Technology. International Journal Food Science Technology, 47(9):1789-1797
Moretti, D., Lee, T.C., Zimmermann, M.B., Nuessli, J., & Hurrell, R.F. 2005. Development and Evaluation of Iron-Fortified Extruded Rice Grains.Journal Food Science, 70:330-336
Noviasari, S., Kusnandar, F. & Budijanto, S. 2013. Pengembangan Beras Analog dengan Memanfaatkan Jagung Putih. Jurnal Teknologi Industri Pangan, 24:195-201. doi: 10.6066/jtip.2013.24.2.195.
Ohtsubo, K., Suzuki, K., Yasui, Y. & Kasumi, T. 2005. Bio-Functional Components in the Processed Pre-Germinated Brown Rice by A Twin Screw Extruder. Journal of Food Composition Analysis, 18: 303-316.
Pahlevi, A.E. 2012. Determinan Status Gizi pada Siswa Sekolah Dasar. Jurnal Kesehatan Masyarakat, 7(2):122-126.
Sanada, H., Yokokawa, H., Yoneda, M., Yatabe, J., Yatabe, S.M., Williams, S.M., Felder, R.A., Jose, P.A. 2012. High Body Mass Index is an Important Risk Factor for the Development of Type 2 Diabetes. Internal Medicine, 51:1821-1826.
Setianingsih, P. 2008. Karakterisasi Sifat Fisiko Kimia dan Indeks Glikemiks Beras Berkadar Amilosa Sedang.Skripsi. Bogor: Fakultas Teknologi Pertanian. Institut Pertanian Bogor
Srikaeo, K. & Sangkhiaw J. 2014.Effects of Amylose and Resistant Starch on Glycaemic Index of Rice Noodles. Journal Food Science and Technology, 59:1129-1135. doi:10.1016/j.lwt.2014.06.012.
Suarni. 2001. Tepung Komposit Sorgum, Jagung, dan Beras untuk Pembuatan Kue Basah (cake). Risalah Penelitian Jagung dan Serealia Lain, 6
Subagyo, A., Siti, W., Witono, Y.& Fahmi, F. 2008. Prosedur Operasi Standar (POS) Produksi Mocal Berbasis Klaster. Rusnas Diversifikasi Pangan Pokok, Trenggalek
Widowati, S., Astawan, M., Muchtadi, D. & Wresdiyati, T. 2006. Hypoglycemic Activity of Some Indonesian Rice Varieties and Their Physicochemical Properties. Indonesian Journal of Agricultural Science, 7(2):57-66
Winarno FG. 2008. Kimia Pangan dan Gizi. Jakarta:PT Gramedia Pustaka
Welch, R.M. & Graham, R.D.2004. Breeding for Micronutrients in Staple Food Crops From A Human Nutrition Perspective. Journal of Experimental Botani, 55(396):53-64.
Wulan, S.T., Widyaningsih, T.D. & Kasseri, D. 2007.Modifikasi Pati Beras Alami dan Hasil Pemutusan Rantai Cabang dengan Perlakuan Fisik/ Kimia untuk Meningkatkan Kadar Pati Resisten.Jurnal Teknologi Pertanian, 8(1):61-70
Yusof, B.N.M., Talib, R.A.& Karim, N.A. 2005.Glycemic Index of Eight Types of Commercial Rice.Malaysian Journal of Nutrition, 11(2):151-163
Zhuang, H., An, H., Chen, H., Xie, Z., Zhao, J., Xu, X. & Jin, Z. 2010. Effect of Extrusion Parameters on Physicochemical Properties of Hybrid Indica Rice (Type 9718) Extrudates.Journal of Food Processing and Preservation, 34:1080-1102
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