1Adnan M, Tatik M, Joko TI (2013) Relationship of body mass index (BMI) with blood glucose levels of patients with diabetes mellitus (DM) type 2 outpatient at Tugurejo Hospital Semarang. J. NutrSemarang Muhammadiyah Univ 2:18-24.

2Amir S, Burhaniddin B, Tahir A (2017) Effect of sago consumption pattern on LDL and HDL in women 35-55 years North Luwu. Int J Behav Health Res 2:22-30.

3Arif, Abdullah B, Agus B (2013) Glycemic Index District of Foods and Its Affecting Factors. J. Litbang Per 32:91–99.

4(2016) American Diabetes Association. Classification and diagnosis of diabetes. Diabetes Care 39:513-522.

5Bark El-Sayed (2015) Nutritional assessment of type II diabetic patient. Pak J Nutr 14:308-315.

6Bintoro HMH (2016) Sago for Indonesia's development. Paper at the Sago National Seminar and Workshop 9-10 November. Bogor.

7Erwin P, dan Karmini N (2012) Indicators of income, family members, and level of education on consumption patterns of poor households in Gianyar District. E-Jurnal Ekonomi Pembangunan1:1-60.

8Fitri RI dan Yekti W (2012) Energy intake, carbohydrate, fiber, glycemic load, physical exercise, and blood glucose levels in patients with type 2 diabetes mellitus.Media Medika Indonesiana 46:121-131.

9Hu FB (2011) Globalization of Diabetes: The Role of Diet, Lifestyle, and Genes. Diabetes Care 34:1249– 1257.

10Hu EA, Vasanti Malik, Qi Sun (2012) White rice consumption and risk of type 2 diabetes: Meta-analysis and systematic review. BMJ 344:e1454.

11Hariyanto B (2014) The development of sago-based food product technology to support food availability. Agency for the Assessment and Application of Technology. Serpong.

12Hariyanto B, Agus TP, Y Marsono, Sri Budi W, Agus W, et al. (2016) Study of sago rice consumption for normal volunteers. Agency for the Assessment and Application of Technology. Serpong.

13Hingle DM, Betsy CW, Marian LN, Lesley FT, et al. (2017) Association between Dietary Energy Density and Incident Type 2 Diabetes in the Women's Health Initiative. J Acad Nutr Diet 117:778-785.

14Hegazi R, Mohame EG, Nagy AH, Osama H. (2015) Epidemiology of risk factors for tpe 2 diabetes in Egypt. Ann Glob Health 81:814-820.

15Idris H, Hamzah H, Feranita (2017) Analysis of diabetes mellitus determinants in Indonesia: A study from the Indonesian basic health research. Acta Med Indones49:291-298.

16(2015) [IDF] International Diabetes Federation. IDF Diabetes Atlas Seventh Edition. Karakas Print. New York

17Korrapati D, Shanmugam MJ, Sangamitra K, Laxmi RP, Vani A, ET AL. (2018) Development of Low Glycemic Index Foods and Their Glucose Response in Young Healthy Non-Diabetic Subjects. Prev. Nutr. Food Sci 23:181-188.

18Kral BG, Becker DM, Yanek LR, Vaidya D, et al. ( 2018) The relationship of family history and risk of type 2 diabetes differs by ancestry. Diabetes and Metab. Artikel in Press.

19Laksir H, Mirian L, Sophie CR, Johan DV-VDB, (2017) Glycaemic response after intake of high energy, high protein, the diabetes-specific formula in older malnutrished or at risk of malnutrition type 2 diabetes patients. Clin Nutr 37:2084-2090.

20(2013) Ministry of Health Republic of Indonesia. Basic health research. Jakarta (ID): Health Research and Development Agency.

21Momuat L.I, Edi.S, Olha.R, Aneke.K, et al. (2015) Comparison of phenolic compounds and antioxidant activities between fresh and dried sago. Chem. Prog 8:20-27.

22Pavlou, Dimitra I (2018) Hypertension in Patients with Type 2 Diabetes Mellitus: Targets and Management. Maturitas112:71-77.

23Punthakee, Zubin, Ronald Goldenberg, and Pamela Katz (2018) Definition, Classification, and Diagnosis of Diabetes, RCBG 140-200 mm/dL and Metabolic Syndrome Diabetes Canada Clinical Practice Guidelines Expert Committee. Can J Diabetes 42: 10-15.

24Purwani EY, Y Setiawaty, H Setianto, Widaningrum (2006) Characteristics and case studies of the preference of sago noodles by the community in South Sulawesi. AGRITECH 26:24- 33.

25(2012) Putra FD dan Mahmudiono T. Relationship between the level of consumption of carbohydrates, fats, and dietary fiber with blood glucose levels in patients with type 2 diabetes mellitus. Media Gizi Indonesia 2:1528-1537.

26Reed J, Sudaba M, Mary M, Stewart BH, et al. (2016) Dietary pattern and type 2 diabetes mellitus in a first nations community. Can J Diabetes 40: 304-310.

27Rompay MIV, Nicola MM, Carmen CS, Jose MO, et al. (2012) Carbohydrate nutrition differs by diabetes status is associated with dyslipidemia in Boston Pusrto Rican adult without diabetes. J. Nutr143:182-188.

28Sar S, Marks GC (2015) Estimated effects of white rice consumption and rice variety selection on the incidence of type 2 diabetes in Cambodia. Public Health Nutr 18:2592-2599.

29Siddiqui FJ, Bilal IA, Sadia M, Debra JN, et al. (2015) Uncontrolled diabetes mellitus: Prevalence and risk factors among people with type 2 diabetes mellitus in an Urban District of Karachi, Pakistan. Diabetes Res Clin Pract 107:148-156.

30Su-Jung Cho, Un Ju Jung1, Hye-Jin Kim, Ri Ryu, Jae Young Ryoo, et al. (2015)Effects of the Combined Extracts of Grape Pomace and Omija Fruit on Hyperglycemia and Adiposity in Type 2 Diabetic Mice. Prev. Nutr. Food Sci 20:94-101.

31Tabak AD, Christian H, Walfgang R, Eriz B, et al. (2012) Pre diabetes: a high-risk state for diabetes development. The Lancet 379: 2279-2286.

32Tarigan EP, Lidya IM, Edi S (2015) Characterization and antioxidant activity of Baruk sago flour. J. MIPA UNSRAT online 2015;4 :125-130.

33Trisnawati, Shara Kurnia, and Soedijono Setyorogo (2012) Risk Factors for Diabetes Mellitus Type II Occurrence in Cengkareng District Health Center, West Jakarta. Health Sci J 5:6– 11.

34Watson C (2017) Pre diabetes: Screening, diagnosis, and intervention. J Nurse Pract 13:216-221.

35Wahjuningsih SB, Y Marsono, Danar P, Bambang H (2016) Resistant starch content and glycaemic index of sago (Metroxylon spp) starch and red bean (Phaseolus vulgaris) based anslogue rice. Pak J Nutr 15:667-672.

36(2016) World Health Organization(WHO). Global Report on Diabetes. WHO Pres, Switzerland

37(2016) World Health Organization (WHO). World Health Statistics 2016: Monitoring health for the SDGs. World Health Organization.