ABSTRAK

Latar belakang: Indonesia menduduki peringkat ke-7 dunia dengan penderita Diabetes Mellitus (DM) sebanyak 10,3 juta jiwa (IDF, 2017). Tepung ampas tahu dan tepung labu kuning dipilih sebagai bahan pengembangan susu sereal karena mengandung tinggi serat dan antioksidan.

Tujuan: Menganalisis pengaruh formulasi tepung tapioka, tepung ampas tahu dan tepung labu kuning terhadap nilai energi, mutu kimia (protein, lemak, karbohidrat, kadar air, dan kadar abu), mutu fungsional (kadar serat dan aktivitas antioksidan), dan mutu organoleptik susu sereal pengembangan bagi penderita diabetes mellitus tipe 2.

Metode: Jenis penelitian adalah eksperimental dengan desain Rancangan Acak Lengkap (RAL). Taraf perlakuan adalah perbandingan tepung tapioaka, tepung ampas tahu dan tepung labu kuning yaitu P (60 : 15 : 25), P 2 (45 : 20 : 35), P (35 : 25 : 40).

Hasil: taraf perlakuan P 1 3 (60 : 15 : 25) merupakan taraf perlakuan terbaik karena kadar karbohidrat 64% total asupan energi, nilai energi 431 Kkal, kadar serat kasar 2,02%,kadar protein 14,7% total asupan energi, kadar lemak 24% total asupan energi, kadar abu 2,9%, tetapi kadar air melebihi standar yaitu 3,40% dan aktivitas antioksidan dalam kategori sangat lemah 176.490 µg/ml. Tingkat kesukaan panelis terhadap atribut warna, aroma, mouthfeel dan rasa susu sereal pengembangan pada taraf perlakuan 1 (P ) memperoleh skala 3.

Kesimpulan: Mutu kimia (Kadar air, kadar abu, protein, lemak, karbohidrat) memenuhi standar SNI 014270-1996 dan PERKENI kecuali kadar air.

KATA KUNCI: diabetes mellitus tipe 2; susu sereal pengembangan; mutu kimia; tepung ampas tahu; tepung labu kuning

ABSTRACT

Background: Indonesia was ranked 7th in the world with 10.3 million diabetic based on The International Diabetes Federation (IDF) in 2017. Tofu dregs and pumpkin flour were chosen as ingredients for the development of cereal milk because they are high in fiber and antioxidants.

Objective: To analyze the effect of tapioca flour, tofu dregs flour and pumpkin flour on energy value, chemical quality (protein, fat, carbohydrate, water content, and ash content), functional quality (fiber content and antioxidant activity), and organoleptic quality developmental cereal milk for type 2 diabetic.

Methods: This type of research is experimental with a completely randomized design (CRD). The level of treatment is the ratio of tapioca flour, tofu dregs and yellow pumpkin flour, namely P1 (60: 15: 25), P2 (45: 20: 35), P3 (35: 25: 40).

Results: P1 (60: 15: 25) is the best treatment level because carbohydrate content is 64% of total energy intake, energy value is 431 Kcal, fiber content is 2.02%, protein content is 14.7%, content fat 24% ash content of 2.9%, but water content exceeds the standard of 3.40% and antioxidant activity in the very weak category 176,490 µg / ml. The level of preference of panelists on the attributes of color, aroma, mouthfeel and taste of cereal milk at treatment level 1 (P1) obtained a scale of 3.

Conclusions: Chemical quality SNI 01-4270- 1996 and PERKENI standard except water content.

KEYWORDS:chemical quality; milk cereal develompment;

IDF 2017. Eighth edition 2017 [Internet]. IDF Diabetes Atlas, 8th edition. 2017. 1–150 p. Available from: https://www.idf.org/aboutdiabetes/type-2-diabetes.html

Zatalia SR, Sanusi H. The role of antioxidants in the pathophysiology, complications, and management of diabetes mellitus. Acta Med Indones. 2013;45(2):141–7.

Soelistijo S, Novida H, Rudijanto A, Soewondo P, Suastika K, Manaf A, et al. Konsesus Pengelolaan Dan Pencegahan Diabetes Melitus Tipe2 Di Indonesia 2015 [Internet]. Perkeni. 2015. 82 p. Available from: https://www.google.com/url?sa=t&source=web&rct=j&url=https://pbperkeni.or.id/wp-content/uploads/2019/01/4.-Konsensus-Pengelolaan-dan-Pencegahan-Diabetes-melitus-tipe-2-di-Indonesia-PERKENI-2015.pdf&ved=2ahUKEwjy8KOs8cfoAhXCb30KHQb1Ck0QFjADegQIBhAB&usg=AOv

Johnson, E.Q. dan Thomas M. Medical nutrition therapy by registered dietitians improves HbA1c levels (Abstract). J Diabetes. 2001;50(2).

Sadzali I. Potensi Limbah Tahu sebagai Biogas. J UI untuk Bangsa Seri Kesehatan, Sains, dan Teknol. 2010;1(2):62–9.

Sulaeman, A. Sulistiani, Supriatna D. Pemanfaatan Ampas Tahu Untuk Tepung Tinggi Serat sebagai Alternatif bahan Baku Pangan Fungsional. J Agro Base Ind. 2007;24(2):1–13.

Adams GG, Imran S, Wang S, Mohammad A, Kok S, Gray DA, et al. The hypoglycaemic effect of pumpkins as anti-diabetic and functional medicines. Food Res Int [Internet]. 2011;44(4):862–7. Available from: http://dx.doi.org/10.1016/j.foodres.2011.03.016

Kandlakunta, B., Rajendran, A., & Thingnganing L. Carotene content of some common (cereals, pulses, vegetables, sp ices and condiments) and unconventional sources of plant origin. Food Chem. 2008;106:85–89.

Food and Agriculture of The United Nations. Milk and Dairy Products In Human Nutrition. Rome: FAO Fiat Panis; 2013. p. 1–4, 41–90, 134, 158–62, 207-26.

Agustina YE. Subtitusi Tepung Kacang merah dalam Pembuatan Sereal yang Kaya akan Serat. Universita Negeri Yogyakarta; 2011.

AOAC. Official Methods of Analysis. Association of Official Analytical Chemists. 2005.

Almatsier S. Prinsip Dasar Ilmu Gizi. Jakarta: Gramedia Pustaka; 2009.

Cahyaningtyas FI, Baskito, Anam C. Kajian Fisikokimia Dan Sensori Tepung Labu Kuning (Curcubita moschata Durch) Sebagai Substitusi Tepung Terigu Pada Pembuatan Eggroll. J Teknosains Pangan. 2014;3(2):13–9.

Ayunir M, Ansharullah, Hermanto. Pengaruh substitusi tepung ampas tahu terhadap komposisi kimia dan organoleptik roti manis. Sains dan Teknol Pangan. 2017;2(3):542–53.

Sartika Y, Hermiza M. Pengaruh Penambahan Tepung Ampas Tahu Terhadap Karakteristik Biskuit Yang Dihasilkan. J Teknol Pertan [Internet]. 2017;6(1):1–11. Available from: https://ejournal.unisi.ac.id/index.php/jtp/article/view/96/69

Adubofuor, J. Justice, W. A. Isaac A. Anti-nutrional factor and mineral composition of pumpkin pulp and functional properties of pumpkin-wheat composite flour bread preparation. Int J Innov Food Sci Technol. 2018;1:1–9.

Wati MA. Formulasi Flakes (Flakes Qafa) Berbahan Tepung Labu Kuning (Cucurbita moschata) dan Tepung Jamur Tiram Putih (Plaerotus ostreatus) sebagai Pengembangan Diet B bagi Penderita Diabetes Mellitus Tipe 2. Poltekkes Kemenkes Malang; 2018.

Chandra F. Formulasi Snack Bar Tinggi Serat Berbasis Tepung Sorgum (Sorghum Bicolor L), Tepung Maizena, dan Tepung Ampas Tahu. Institut Pertanian Bogor; 2010.

Sinaga E, Wirawanni Y. Pengaruh Pemberian Susu Kedelai Terhadap Kadar Glukosa Darah Puasa Pada Wanita Prediabetes. J Nutr Coll. 2012;1(1):312–21.

Nutrition recommendations and interventions for diabetes: A position statement of the American Diabetes Association. Diabetes Care. 2008;31(SUPPL. 1).

Manurung R, Nasution E, Lubis Z. Daya Terima Cookies Substitusi Tepung Ampas Tahu Dengan Tepung Beras Merah Dan Nilai Gizinya ( The Acceptance of Cookies by The Substitution of Tofu Dregs Flour with Brown Rice Flour and The Nutrition Facts ). 2012;1–8.

Dhiyas, A.Rustanti N. Pengaruh Perbandingan Tepung Labu Kuning (Cucurbita Moschata) dan Tepung Mocaf Terhadap Serat Pangan, Aktivitas Antioksidan, dan Total Energi Pada Flakes “Kumo.” J Nutr Collage. 2016;5(4):499–503.

Ramadhani G, Izzati M, Parman S. Analisis Proximat, Antioksidan dan Kesukaan Sereal Makanan Dari Bahan Dasar Tepung Jagung (Zea mays L.) dan Tepung Labu Kuning (Cucurbita moschata Durch). Anat dan Fisiol. 2012;XX(2):32–9.

Molyneux P. The Use of the Stable Free Radical Diphenylpicryl-hydrazyl (DPPH) for Estimating Antioxidant Activity. Songklanakarin J Sci Technol. 2004;26(December 2003):211–9.

Ranonto NR, Razak AR. Retensi Karoten Dalam Berbagai Produk Olahan Labu Kuning ( Cucurbita moschata Durch ) The Retention Of Carotene In All Of Yellow Pumpkin ( Cucurbita moschata Durch ). Online J Nat Sci. 2015;4(1):104–10.

Igfar A. Pengaruh Penambahan Tepung Labu Kuning (Cucurbita Moschata) dan Tepung Terigu Terhadap Pembuatan Biskuit. Universitas Hasanuddin; 2012.

Winarno F. Kimia Pangan dan Gizi. Jakarta: Gramedia Pustaka Utama; 2004.

Pramitasari D, Anandhito Rbk, FAUZA G. The addition of ginger extract in making soymilk powder by spray drying method: Chemical constituents, sensory characteristic and antioxidant activity. Biofarmasi J Nat Prod Biochem. 2011;9(1):17–25.

Supriyadi D dan S. Study on Effects of Amylose Amylopectin Ratio and Water Content to Crispiness and Hardness of Fried Product. Institut Pertanian Bogor; 2012.

Nadia L, Apriyantono A, Rahayu WP. ( Characterisation of ‘ Gurih ’ Taste of Several Food Products ). J Mat Sains dan Teknol. 2004;5(2):97–106.

Thenir R, Wahab D. Pengaruh Substitusi Tepung Labu Kuning ( Cucurbita Moschata ) Terhadap Penilaian Organoleptik Dan Analisis Proksimat Kue Bolu Mangkok. J Sains dan Teknol Pangan. 2017;2(1):360–9.