1 김정현, "청소년의 신체활동지침 실천정도와 건강관련 요인과의 관련성 - 제 11차(2015년)청소년건강행태온라인조사 자료를 이용하여 -" 한국여성체육학회 30 (30): 335-355, 2016
2 금혜선, "중년기 성인의 당뇨병 유병형태에 대한 생리적 지표 및생활습관 비교" 한국산학기술학회 17 (17): 104-111, 2016
3 최문기, "당뇨 전단계 성인의 공복 혈중인슐린농도 차이에 따른 심혈관질환 위험인자, 인슐린저항성 지표, 싸이토카인과의 관련성" 대한운동학회 17 (17): 63-71, 2015
4 권세영, "공복혈당과 당화혈색소를 적용한 당뇨병 이상소견자의 분포 및 특성 - 당뇨병 기진단자를 제외한 성인을 대상으로" 대한임상검사과학회 49 (49): 239-247, 2017
5 이중철, "고혈압·당뇨가 있는 만성질환자들의 운동 참여가 건강지표, 신체구성 및체력수준에 미치는 영향" 한국발육발달학회 25 (25): 423-429, 2017
6 Emdin CA, "Usual blood pressure and risk of New-Onset diabetes: evidence From 4.1 million adults and a meta-analysis of prospective studies" 66 : 1552-1562, 2015
7 Michael Stumvoll, "Type 2 diabetes: principles of pathogenesis and therapy" Elsevier BV 365 (365): 1333-1346, 2005
8 Arslanian SA, "Type 2 diabetes mellitus in children:pathophysiology and risk factors" 13 (13): 1385-1394, 2000
9 Thomas DE, "The use of low-glycaemic index diets in diabetes control" 104 (104): 797-802, 2010
10 Kallman DA, "The role of muscle strength loss in the age-related decline in grip" 45 (45): 82-88, 1990
1 김정현, "청소년의 신체활동지침 실천정도와 건강관련 요인과의 관련성 - 제 11차(2015년)청소년건강행태온라인조사 자료를 이용하여 -" 한국여성체육학회 30 (30): 335-355, 2016
2 금혜선, "중년기 성인의 당뇨병 유병형태에 대한 생리적 지표 및생활습관 비교" 한국산학기술학회 17 (17): 104-111, 2016
3 최문기, "당뇨 전단계 성인의 공복 혈중인슐린농도 차이에 따른 심혈관질환 위험인자, 인슐린저항성 지표, 싸이토카인과의 관련성" 대한운동학회 17 (17): 63-71, 2015
4 권세영, "공복혈당과 당화혈색소를 적용한 당뇨병 이상소견자의 분포 및 특성 - 당뇨병 기진단자를 제외한 성인을 대상으로" 대한임상검사과학회 49 (49): 239-247, 2017
5 이중철, "고혈압·당뇨가 있는 만성질환자들의 운동 참여가 건강지표, 신체구성 및체력수준에 미치는 영향" 한국발육발달학회 25 (25): 423-429, 2017
6 Emdin CA, "Usual blood pressure and risk of New-Onset diabetes: evidence From 4.1 million adults and a meta-analysis of prospective studies" 66 : 1552-1562, 2015
7 Michael Stumvoll, "Type 2 diabetes: principles of pathogenesis and therapy" Elsevier BV 365 (365): 1333-1346, 2005
8 Arslanian SA, "Type 2 diabetes mellitus in children:pathophysiology and risk factors" 13 (13): 1385-1394, 2000
9 Thomas DE, "The use of low-glycaemic index diets in diabetes control" 104 (104): 797-802, 2010
10 Kallman DA, "The role of muscle strength loss in the age-related decline in grip" 45 (45): 82-88, 1990
11 D. Legrand, "The relationship between grip strength and muscle mass (MM), inflammatory biomarkers and physical performance in community-dwelling very old persons" Elsevier BV 57 (57): 345-351, 2013
12 Chen CM, "The prevalence and determinants of impaired fasting glucose in the population of Taiwan" 13 : 11-23, 2013
13 Ministry of Health and Welfare, "The physical activity guide for Koreans"
14 Gholamreza Veghari, "The association of fasting blood glucose (FBG) and waist circumference in northern adults in Iran: a population based study" Springer Science and Business Media LLC 13 (13): 2-, 2014
15 Hu K, "Study on the effectiveness of exercise intervention among pre-diabetics in Huangpu district, Shanghai" 28 (28): 669-671, 2011
16 National Health Service, "Serious health conditions"
17 Bullard KM, "Secular changes in U.S. Prediabetes prevalence defined by hemoglobin A1c and fasting plasma glucose: National Health and Nutrition Examination Surveys, 1999-2010" 36 (36): 2286-2293, 2013
18 Xiaoxu Huo, "Risk of non-fatal cardiovascular diseases in early-onset versus late-onset type 2 diabetes in China: a cross-sectional study" Elsevier BV 4 (4): 115-124, 2016
19 Wang H, "Prevalence and determinants of diabetes and impaired fasting glucose among urban community-dwelling adults in Guangzhou, China" 35 (35): 378-384, 2009
20 Meikle PJ, "Plasma lipid profiling shows similar associations with prediabetes and type 2 diabetes" 8 (8): e74341-, 2013
21 Colberg SR, "Physical activity/exercise and diabetes: a position statement of the American diabetes association" 39 (39): 2065-2079, 2016
22 Hu G, "Physical activity, body mass index, and risk of type 2 diabetes in patients with normal or impaired glucose regulation" 164 (164): 892-896, 2004
23 LaMonte MJ, "Physical activity and diabetes prevention" 99 (99): 1205-1213, 2005
24 Castro AV, "Obesity, insulin resistance and comorbidities? mechanisms of association" 58 (58): 600-609, 2014
25 MacMahon S, "Obesity and hypertension: epidemiological and clinical issues" 8 : 57-70, 1987
26 Ministry of Health and Welfare, "OECD Health Statistics 2018" 2018
27 Roden M, "Mechanism of free fatty acid-induced insulin resistance in humans" 97 (97): 2859-2865, 1996
28 Ministry of Health and Welfare, "Korean National Health and Nutrition Examination Survey" 2019
29 Kitagawa T, "Increased incidence of non-insulin dependent diabetes mellitus among Japanese schoolchildren correlates with an increased intake of animal protein and fat" 37 (37): 111-115, 1998
30 International Diabetes Federation, "IDF Diabetes Atlas" International Diabetes Federation 2017
31 WHO, "Global Report on Diabetes" 2016
32 Malecki MT, "Genetics of type 2 diabetes mellitus" 68 (68): S10-S21, 2005
33 Kang JM, "Factors associated with prediabetes: data from the Korean National Health and Nutrition Examination Survey V, 2011-2012" Yonsei University 2015
34 Duncan GE, "Exercise training, without weight loss, increases insulin sensitivity and postheparin plasma lipase activity in previously sedentary adults" 26 (26): 557-562, 2003
35 Pruchnic R, "Exercise training increases intramyocellular lipid and oxidative capacity in older adults" 287 (287): e857-e862, 2004
36 O'Gorman DJ, "Exercise training increases insulin-stimulated glucose disposal and GLUT4(SLC2A4)protein content in patients with type 2diabetes" 49 (49): 2983-2992, 2006
37 Christ-Roberts CY, "Exercise training increases glycogen synthase activity and GLUT4 expression but not insulin signaling in overweight nondiabetic and type 2 diabetic subjects" 53 (53): 1233-1242, 2004
38 Goodpaster BH, "Enhanced fat oxidation through physical activity is associated with improvements in insulin sensitivity in obesity" 52 (52): 2197-, 2003
39 G.A. Kelley, "Effects of aerobic exercise on lipids and lipoproteins in adults with type 2 diabetes: A meta-analysis of randomized-controlled trials" Elsevier BV 121 (121): 643-655, 2007
40 Joseph A. Houmard, "Effect of the volume and intensity of exercise training on insulin sensitivity" American Physiological Society 96 (96): 101-106, 2004
41 Bajpeyi S, "Effect of exercise intensity and volume on persistence of insulin sensitivity during training cessation" 106 (106): 1079-1085, 2009
42 Korea Diabetes Association, "Diabetes fact sheet in Korea"
43 Halpern A, "Diabesity : are weight loss medications effective?" 4 (4): 65-74, 2005
44 최오종, "Changes in prevalence of obesity according to gender in Korea adults: Using a population-based Korea National Health Check-up Database, 2011–2013" 사단법인 대한보건협회 44 (44): 87-97, 2018
45 Zhang L, "Blood lipid levels in relation to glucose status in European men and women without a prior history of diabetes: the DECODE Study" 82 (82): 364-377, 2008
46 Lee MR, "Association of muscle strength with cardiovascular risk in Korean adults Findings from the Korea National Health and Nutrition Examination Survey (KNHANES) VI to VII (2014–2016)" 97 (97): e13240-, 2014
47 Evans EM, "Aerobic power and insulin action improve in response to endurance exercise training in healthy 77-87 yr olds" 98 (98): 40-45, 2005
48 Wang Y, "Adaptations to exercise training within skeletal muscle in adults with type 2 diabetes or impaired glucose tolerance:a systematic review" 25 (25): 13-40, 2009