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A life course approach to diet, nutrition and the prevention of chronic diseases

Published online by Cambridge University Press:  02 January 2007

I Darnton-Hill*
Affiliation:
Institute of Human Nutrition, Columbia University, New York, USA (currently at UNICEF)
C Nishida
Affiliation:
Department of Nutrition for Health and Development, World Health Organization, Geneva, Switzerland
WPT James
Affiliation:
International Obesity Task Force, London, UK
*
*Corresponding author: Email idarntonhill@unicef.org
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Abstract

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Objective:

To briefly review the current understanding of the aetiology and prevention of chronic diseases using a life course approach, demonstrating the life-long influences on the development of disease.

Design:

A computer search of the relevant literature was done using Medline-‘life cycle’ and ‘nutrition’ and reviewing the articles for relevance in addressing the above objective. Articles from references dated before 1990 were followed up separately. A subsequent search using Clio updated the search and extended it by using ‘life cycle’, ‘nutrition’ and ‘noncommunicable disease’ (NCD), and ‘life course’. Several published and unpublished WHO reports were key in developing the background and arguments.

Setting:

International and national public health and nutrition policy development in light of the global epidemic in chronic diseases, and the continuing nutrition, demographic and epidemiological transitions happening in an increasingly globalized world.

Results of review:

There is a global epidemic of increasing obesity, diabetes and other chronic NCDs, especially in developing and transitional economies, and in the less affluent within these, and in the developed countries. At the same time, there has been an increase in communities and households that have coincident under- and over-nutrition.

Conclusions:

The epidemic will continue to increase and is due to a lifetime of exposures and influences. Genetic predisposition plays an unspecified role, and with programming during fetal life for adult disease contributing to an unknown degree. A global rise in obesity levels is contributing to a particular epidemic of type 2 diabetes as well as other NCDs. Prevention will be the most cost-effective and feasible approach for many countries and should involve three mutually reinforcing strategies throughout life, starting in the antenatal period.

Type
Research Article
Copyright
Copyright © CAB International 2004

References

1The World Health Report 2002: reducing risks, promoting healthy life. Geneva: World Health Organization, 2002.Google Scholar
2Murray, CJL, Lopez, AD, ed. The Global Burden of Disease. A Comprehensive Assessment of Mortality and Disability from Disease, Injury and Risk Factors in 1990 and Projected to 2020. Geneva: World Health Organisation, 1996.Google Scholar
3Epping-Jordan, J, Bengoa, R, Kawar, R, Sabate, E. The challenge of chronic conditions: WHO responds. British Medical Journal 2001; 323: 947–8.CrossRefGoogle ScholarPubMed
4WHO. Diet, Physical Activity and Health. Geneva: World Health Organization, 2002 (documents A55/16 and A55/16 corr. 1).Google Scholar
5White, A, Lockyer, L. Tackling coronary heart disease: a gender sensitive approach is needed. British Medical Journal 2001; 323: 1016–7.CrossRefGoogle Scholar
6WHO. Women and the Tobacco Epidemic. Challenges for the 21st Century. Geneva: World Health Organization, 2001.Google Scholar
7Aboderin, I, Kalache, A, Ben-Shlomo, Y, Lynch, JW, Yajnik, CS, Kuh, D, Yach, D. Life Course Perspectives on Coronary Heart Disease, Stroke and Diabetes: Key Issues and Implications for Policy and Research. Geneva: World Health Organization, 2002 (document WHO/NMH/NPH/02.1).Google Scholar
8Popkin, BM. The shift in stages of the nutritional transition in the developing world differs from past experiences! Public Health Nutrition 2002; 5(1A): 205–14.CrossRefGoogle ScholarPubMed
9Ford, ES, Giles, WH, Dietz, WH. Prevalence of the metabolic syndrome among US adults: findings from the Third National Health and Nutrition Examination Survey. Journal of the American Medical Association 2002; 287: 356–9.CrossRefGoogle ScholarPubMed
10Kuh, D, Ben-Shlomo, Y, ed. A Life Course Approach to Chronic Disease Epidemiology. Oxford: Oxford University Press, 1997 Preface.CrossRefGoogle Scholar
11Popkin, BM, Horton, S, Kim, S, Mahal, A, Shuigao, J. Trends in diet, nutritional status, and diet-related noncommunicable diseases in China and India: the economic costs of the transition. Nutrition Reviews 2001; 59: 379–90.CrossRefGoogle Scholar
12Popkin, BM. An overview on the nutrition transition and its health implications: the Bellagio Meeting. Public Health Nutrition 2002; 5(1A): 93103.Google ScholarPubMed
13Darnton-Hill, I, Coyne, ET. Feast and famine: socioeconomic disparities in global nutrition and health. Public Health Nutrition 1998 1: 2331.CrossRefGoogle ScholarPubMed
14WHO. Programming of Chronic Disease by Impaired Fetal Nutrition: Evidence and Implications for Research and Intervention Strategies. Geneva: World Health Organization, 2002 (documents WHO/NHD/02.3 and WHO/NPH/02.1).Google Scholar
15Ben-Shlomo, Y, Kuh, D. A life course approach to chronic disease epidemiology. Paper presented at International Workshop ‘Synthetic Biographies: State of the Art and Developments’6–9 JuneSan Miniato (Pisa), Italy1999.Google Scholar
16Monteiro, CA, Conde, WL, Popkin, BM. Is obesity replacing or adding to undernutrition? Evidence from different social classes of Brazil. Public Health Nutrition 2002; 5(1A): 105–12.CrossRefGoogle ScholarPubMed
17James, WPT, Chen, C, Inoue, S. Appropriate Asian body mass indices? Obesity Review 2002; 3: 139232.CrossRefGoogle ScholarPubMed
18Chopra, M, Galbraith, S, Darnton-Hill, I. A global response to a global problem: the epidemic of overnutrition. WHO Bulletin 2002; 80: 952–8.Google ScholarPubMed
19Wilcox, AJ. On the importance—and the unimportance—of birthweight. International Journal of Epidemiology 2001; 30: 1233–41.CrossRefGoogle ScholarPubMed
20Harding, JE. The nutritional basis of the fetal origins of adult disease. International Journal of Epidemiology 2001(30): 1523.CrossRefGoogle ScholarPubMed
21Leon, DA, Lithell, HO, Vagero, D, Koupilova, I, Mohsen, R, Berglund, L, Lithell, UB, McKeigue, PM. Reduced fetal growth rate and increased risk of death from ischaemic heart disease: cohort study of 15000 Swedish men and women born 1915–29. British Medical Journal 1998; 317: 241–5.CrossRefGoogle Scholar
22Eriksson, JG, Forsén, T, Tuomilehto, J, Winter, PD, Osmond, C. Catch-up growth in childhood and death from coronary heart disease: a longitudinal study. British Medical Journal 1999; 318: 427–31.CrossRefGoogle Scholar
23Forsén, T., Eriksson, JG, Tuomilehto, J, Osmond, C, Barker, DJP. Growth in utero and during childhood in women who develop coronary heart disease: a longitudinal study. British Medical Journal 1999; 319: 1403–7.CrossRefGoogle Scholar
24Barker, DJP, Hales, CN, Fall, CHD, Osmond, C, Phipps, K, Clark, PMS. Type 2 (nNon-insulin-dependent) diabetes mellitus, hypertension and hyperlipidaemia (Syndrome X): relation to reduced fetal growth. Diabetologia 1993; 36: 62–7.CrossRefGoogle Scholar
25Lithell, HO, McKeigue, PM, Berglund, L, Mohsen, R, Lithell, UB, Leon, DA. Relation of size at birth to non-insulin dependent diabetes and insulin concentrations in men aged 50–60 years. British Medical Journal 1996; 312: 406–10.CrossRefGoogle ScholarPubMed
26McKeigue, PM. Diabetes and insulin action. In: Kuh, D, Ben-Shlomo, y, eds. A Life Course Approach to Chronic Disease Epidemiology. Oxford: Oxford University Press, 1997, 78100.CrossRefGoogle Scholar
27Forsén, T, Eriksson, J, Tuomilehto, J, Reunanen, A, Osmond, C, Barker, D. The fetal and childhood growth of persons who develop type 2 diabetes. Annals of Internal Medicine 2000; 133(3): 176–82.CrossRefGoogle ScholarPubMed
28Rich-Edwards, JW, Colditz, GA, Stampfer, MJ, Willett, WC, Gillman, MW, Hennekens, CH, Speizer, FE, Manson, JE. Birth weight and the risk of type 2 diabetes mellitus in adult women. Annals of Internal Medicine 1999; 130: 278–84.CrossRefGoogle ScholarPubMed
29Martyn, CN, Barker, DJP, Osmond, C. Mother's pelvic size, fetal growth and death from stroke and coronary heart disease in men in the UK. Lancet 1996; 348: 1264–8.CrossRefGoogle ScholarPubMed
30Rich-Edwards, JW, Stampfer, MJ, Manson, JE, Rosner, B, Hankinson, SE, Colditz, GA, Willett, WC, Hennekens, CH. Birth weight and risk of cardiovascular disease in a cohort of women followed up since 1976. British Medical Journal 1997; 315: 396400.CrossRefGoogle Scholar
31Barker, DJP. Fetal origins of coronary heart disease. British Medical Journal 1995; 311: 171–4.CrossRefGoogle ScholarPubMed
32Roseboom, TJ, Van der Meulen, JHP, Osmond, C, Barker, DJP, Ravelli, ACJ, Schroeder-Tanka, JM, van Montfrans, GA, Michels, RPJ, Bleker, OP. Coronary heart disease after prenatal exposure to the Dutch Famine 1944–45. Heart 2000; 84(6): 595–8.CrossRefGoogle Scholar
33Stanner, SA, Bulmer, K, Andrés, C, Lantsena, OE, Borodina, V, Poteen, VV, Yudkin, JS. Malnutrition in utero as a determinant of diabetes and coronary heart disease in adult life: the Leningrad Siege Study. British Medical Journal 1997; 315: 173–7.CrossRefGoogle ScholarPubMed
34Yajnik, CS. Interactions of perturbations of intrauterine growth and growth during childhood on the risk of adult-onset disease. Proceeding of the Nutrition Society 2000; 59: 257–65.CrossRefGoogle ScholarPubMed
35Stein, CE, Fall, CHD, Kunaran, K, Osmond, C, Cox, V, Barker, DJP. Fetal growth and coronary heart disease in South India. Lancet 1996; 348: 1269–73.CrossRefGoogle ScholarPubMed
36Fall, CHD, Stein, CE, Kumaran, K, Cox, V, Osmond, C, Barker, DJP, Hales, CN. Size at birth, maternal weight, and type 2 diabetes in South India. Diabetic Medicine 1998; 15: 220–7.3.0.CO;2-O>CrossRefGoogle ScholarPubMed
37Cheung, YB, Low, L, Osmond, C, Barker, D, Karlberg, J. Fetal growth and early postnatal growth are related to blood pressure in adults. Hypertension 2000; 36: 795800.CrossRefGoogle ScholarPubMed
38Barker, DJP, Martyn, CN, Osmond, C, Hales, CN, Fall, CHD. Growth in utero and serum cholesterol concentrations in adult life. British Medical Journal 1993; 307: 1524–7.CrossRefGoogle ScholarPubMed
39Roseboom, TJ, van der Meulen, JH, Osmond, C, Barker, DJ, Ravelli, AC, Bleker, OP. Plasma lipid profiles in adults after prenatal exposure to the Dutch Famine. American Journal of Clinical Nutrition 2000; 72: 1101–6.CrossRefGoogle Scholar
40Mi, J, Law, CM, Zhang, K-L, Osmond, C, Stein, CE, Barer, DJP. Effects of infant birthweight and maternal body mass index in pregnancy on components of the insulin resistance syndrome in China. Annals of Internal Medicine 2000; 132: 253–60.CrossRefGoogle ScholarPubMed
41Bavdekar, A, Yajnik, CS, Fall, CHD, Bapat, S, Pandit, AN, Deshpande, V, Bhave, S, Kellingray, SD, Joglekar, CV. Insulin resistance in 8 year old Indian children. Diabetes 1999; 48: 2422–9.CrossRefGoogle ScholarPubMed
42Forrester, TE, Wilks, RJ, Bennett, FI, Simeon, D, Osmond, C, Allen, M, Chung, AM, Scott, P. Fetal growth and cardiovascular risk factors in Jamaican school children. British Medical Journal 1996; 312: 156–60.CrossRefGoogle Scholar
43Law, CM, Egger, P, Dada, O, Delgado, H, Kylberg, E, Lavin, P, Tang, G-H, von Hertzen, H, Shiell, AW, Barker, DJP. Body size at birth and blood pressure among children in Developing Countries. International Journal of Epidemiology 2001; 30: 52–9.CrossRefGoogle ScholarPubMed
44Terry, MB, Susser, E. Commentary: the impact of fetal and infant exposures along the life course. International Journal of Epidemiology 2001; 30: 95–6.CrossRefGoogle ScholarPubMed
45Eriksson, JG, Forsén, T, Tuomilehto, J, Osmond, C, Barker, DJP. Early growth, adult income, and risk of stroke. Stroke 2000; 31: 869–74.CrossRefGoogle ScholarPubMed
46Eriksson, J, Forsén, T, Tuomilehto, J, Osmond, C, Barker, D. Fetal and childhood growth and hypertension in adult life. Hypertension 2000; 36: 790.CrossRefGoogle ScholarPubMed
47Leon, DA, Johansson, M, Rasmussen, F. Gestational age and growth rate of fetal mass are inversely associated with systolic blood pressure in young adults: an epidemiologic study of 165,136 Swedish men aged 18 years. American Journal of Epidemiology 2000; 152: 597604.CrossRefGoogle ScholarPubMed
48Huxley, R, Neil, A, Collins, R. Unravelling the fetal origins hypothesis: is there really an inverse association between birthweight and subsequent blood pressure? Lancet 2002; 360: 659–65.CrossRefGoogle ScholarPubMed
49Levitt, NS, Stern, K, de Wet, T, Morrell, C, Edwards, R, Ellison, GT, Cameron, N. An inverse relation between blood pressure and birth weight among 6 year old children from Soweto, South Africa. Journal of Epidemiology & Community Health 1999; 53: 264–8.CrossRefGoogle Scholar
50Leon, DA, Koupilova, I, Lithell, HO, Berglund, L, Mohsen, R, Vagero, D, Lithell, UB, McKeigue, PM. Failure to realise growth potential in utero and adult obesity in relation to blood pressure in 50 year old Swedish men. British Medical Journal 1996; 312: 401–6.CrossRefGoogle ScholarPubMed
51McCance, DR, Pettitt, DJ, Hanson, RL, Jacobson, LTH, Knowler, WC, Bennett, PH. Birthweight and non-insulin dependent diabetes: thrifty genotype, thrifty phenotype or surviving small baby genotype? British Medical Journal 1994; 308: 942–5.CrossRefGoogle ScholarPubMed
52Valdez, R, Athens, MA, Thompson, GH, Bradshaw, BS, Stern, MP. Birthweight and adult health outcomes in a biethnic population in the USA. Diabetologia 1994; 35: 444–6.Google Scholar
53Wilson, AC, Forsyth, JS, Greene, SA, Irving, L, Hau, C, Howie, PW. Relation of infant feeding to adult serum cholesterol concentration and death from ischaemic heart disease. British Medical Journal 1998(316): 21–5.CrossRefGoogle Scholar
54Singhal, A, Cole, TJ, Lucas, A. Early nutrition in preterm infants and later blood pressure: two cohorts after randomized trials. Lancet 2001; 357: 413–9.CrossRefGoogle Scholar
55Ravelli, AC, van der Meulen, JH, Osmond, C, Barker, DJP, Bleker, OP. Infant feeding and adult glucose tolerance, lipid profile, blood pressure, and obesity. Archives of Disease in Childhood 2000; 82: 248–52.CrossRefGoogle ScholarPubMed
56Kramer, MS. Do breastfeeding and delayed introduction of solid foods protect against subsequent obesity? Journal of Pediatrics 1981; 98: 883–7.CrossRefGoogle ScholarPubMed
57von Kreis, R, Koletzko, B, Sauerwald, T, von Mutius, E, Barnert, D, Grunert, V, et al. Breast feeding and obesity: cross sectional study. British Medical Journal 1999; 319: 147–50.CrossRefGoogle Scholar
58von Kreis, R, et al. Does breastfeeding protect against childhood obesity? Advances in Experimental Medicine and Biology 2000; 478: 2939.CrossRefGoogle Scholar
59Gillman, MW, Rifas-Shiman, SL, Camargo, CA, Berkey, CS, Frazier, L, Rockett, HRH, Field, AE, Colditz, GA. Risk of overweight among adolescents who were breastfed as infants. Journal of the American Medical Association 2001; 285: 2461–7.CrossRefGoogle ScholarPubMed
60Dietz, WH. Breastfeeding may help prevent childhood overweight. Journal of the American Medical Association 2001; 285: 2506–7.CrossRefGoogle ScholarPubMed
61Roberts, SB. Prevention of hypertension in adulthood by breastfeeding? Lancet 2001; 357: 406–7.CrossRefGoogle ScholarPubMed
62Wingard, DL, Criqui, MH, Edelstein, SL, Tucker, J, Tomlinson-Keasey, C, Schwartz, JE, Freidman, HS. Is breastfeeding in infancy associated with adult longevity? American Journal of Public Health 1994; 84: 1458–62.CrossRefGoogle ScholarPubMed
63Davis, MK. Breastfeeding and chronic disease in childhood and adolescence. Pediatric Clinics of North America 2001; 48(1): 125–41.CrossRefGoogle ScholarPubMed
64Labbock, MH. Effects of breastfeeding on the mother. Pediatric Clinics of North America 2001; 48: 143–58.CrossRefGoogle Scholar
65Barker, DJP, Osmond, C, Winter, PD, Margetts, B, Simmonds, SJ. Weight gain in infancy and death from ischaemic heart disease. Lancet 1989; 2: 577–80.CrossRefGoogle Scholar
66Eriksson, J, Forsén, T, Tuomilehto, J, Osmond, C, Barker, DJP. Early growth and coronary heart disease in later life: longitudinal study. British Medical Journal 2001; 322: 949–53.CrossRefGoogle ScholarPubMed
67Arifeen, SE, Black, RE, Caulfield, LE, Antelman, G, Baqui, AH, Nahar, Q, Alamgir, S, Mahmud, H. Infant growth patterns in the slums of Dhaka in relation to birth weight, intrauterine growth retardation, and prematurity. American Journal of Clinical Nutrition 2000; 72: 1010–7.CrossRefGoogle ScholarPubMed
68Walker, SP, Gaskin, P, Powell, CA, Bennett, FI, Forrester, TE, Grantham-McGregor, S. The effects of birth weight and postnatal linear growth on blood pressure at age 11–12 years. Journal of Epidemiology & Community Health 2001; 55: 394–8.CrossRefGoogle ScholarPubMed
69Fall, CHD, Yajnik, CS, Rao, S, Coyaji, KJ. The effects of maternal body composition before pregnancy on fetal growth: The Pune Maternal Nutrition Study. In: O'Brien, PMS, Wheeler, T, Barker, DJP, eds. Fetal Programming Influences on Development and Disease in Later Life. 1999, 231–45.Google Scholar
70Yajnik, CS. The insulin resistance epidemic in India: fetal origins, later lifestyle, or both? Nutrition Reviews 2001; 59: 19.CrossRefGoogle ScholarPubMed
71Lucas, A, Fewtrell, MS, Cole, TJ. Fetal origins of adult disease—the hypothesis revisited. British Medical Journal 1999; 319: 245–9.CrossRefGoogle ScholarPubMed
72Must, A, Lipman, RD. Childhood energy intake and cancer mortality in adulthood. Nutrition Reviews 1999; 57(1): 21–4.CrossRefGoogle ScholarPubMed
73Must, A, Jacques, PF, Dallal, GE, Bajema, CJ, Dietz, WH. Long-term morbidity and mortality of overweight adolescents. A follow-up of the Harvard Growth Study. New England Journal of Medicine 1992; 327: 1350–5.CrossRefGoogle ScholarPubMed
74Frankel, S, Gunnel, DJ, Peters, TJ. Childhood energy intake and adult mortality from cancer: the Body Orr cohort study. British Medical Journal 1998; 316: 499504.CrossRefGoogle Scholar
75IARC. Weight Control and Physical Activity. IARC Handbooks of Cancer Prevention. Lyon: International Agency for Research on Cancer, World Health Organization, 2002 vol. 6.Google Scholar
76Gunnell, DJ, Davey Smith, G, Frankel, SJ, Kemp, M, Peters, TJ. Socio-economic and dietary influences on leg length and trunk length in childhood: a reanalysis of the Carnegie (Boyd Orr) survey of diet and health in prewar Britain (1937–39). Pediatric and Perinatal Epidemiology 1998; 12(Suppl. 1): 96113.CrossRefGoogle ScholarPubMed
77Hart, CL, Hole, DJ, Davey Smith, G. Influence of socioeconomic circumstances in early and later life on stroke risk among men in a Scottish cohort. Stroke 2000; 31: 2093–7.CrossRefGoogle Scholar
78McCarron, P, Greenwood, R, Ebrahim, S, Elwood, P, Davey Smith, G. Adult height is inversely associated with ischaemic stroke. The Caerphilly and Speedwell Collaborative Studies. Journal of Epidemiology & Community Health 2000; 54: 239–40.CrossRefGoogle ScholarPubMed
79Marmot, MG, Bosma, H, Hemingway, H, Brunner, E, Stansfield, S. Contributions of job control and other risk factors to social variations in coronary heart disease incidence. Lancet 1997; 350: 235–9.CrossRefGoogle ScholarPubMed
80Wannamethee, SG, Shaper, AG, Whincup, PH, Walker, M. Adult height, stroke and coronary heart disease. American Journal of Epidemiology 1998; 148(11): 1069–76.CrossRefGoogle ScholarPubMed
81Jousilahti, P, Tuomilehto, J, Vartiainen, E, Eriksson, J, Puska, P. Relation of adult height to cause-specific and total mortality: a prospective follow-up study of 31,199 middle-aged men and women. American Journal of Epidemiology 2000; 151(11): 1112–20.CrossRefGoogle Scholar
82Forsén, T, Eriksson, J, Qiao, Q, Tervahauta, M, Nissinen, A, Tuomilehto, J. Short stature and coronary heart disease: a 35 year follow-up of the Finnish Cohorts of the Seven Countries Study. Journal of Internal Medicine 2000; 248: 326–32.CrossRefGoogle ScholarPubMed
83Gunnell, DJ, Davey Smith, G, Frankel, S, Nanchahal, K, Braddon, FEM, Pemberton, J, Peters, TJ. Childhood leg length and adult mortality: follow up of the Carnegie (Boyd Orr) survey of diet and health in pre-war Britain. Journal of Epidemiology & Community Health 1998; 52: 142–52.CrossRefGoogle ScholarPubMed
84Davey Smith, G, Shipley, M, Leon, DA. Height and mortality from cancer among men: prospective observational study. British Medical Journal 1998; 317: 1351–2.CrossRefGoogle Scholar
85Davey Smith, G, Hart, C, Upton, M, Hole, D, Gillis, C, Watt, G, Hawthorne, V. Height and risk of death among men and women: aetiological implications of associations with cardiorespiratory disease and cancer mortality. Journal of Epidemiology & Community Health 2000; 54: 97103.CrossRefGoogle ScholarPubMed
86Bartley, M, Fitzpatrick, R, Firth, D, Marmot, M. Social distribution of cardiovascular disease risk factors: change among men 1984–1993. Journal of Epidemiology & Community Health 2000; 54: 806–14.CrossRefGoogle ScholarPubMed
87Marmot, M. Socioeconomic determinants of CHD mortality. International Journal of Epidemiology 1989; 18(Suppl. 1): S196–202.CrossRefGoogle ScholarPubMed
88Luepker, RV, Rosamond, WD, Murphy, R, Sprafka, JM, Folsom, AR, McGovern, PG, Blackburn, H. Socioeconomic status and coronary heart risk factor trends. The Minnesota Heart Survey. Circulation 1993; 88: 2171–9.CrossRefGoogle ScholarPubMed
89Lynch, JW, Kaplan, GA, Cohen, RD, Tuomilehto, J, Salonen, JT. Do cardiovascular risk factors explain the relation between socioeconomic status, risk of all-cause mortality, cardiovascular mortality, and acute myocardial infarction? American Journal of Epidemiology 1996; 144: 934–42.CrossRefGoogle ScholarPubMed
90Myllykangas, M, Pekkanen, J, Rasi, V, Haukkala, A, Vahtera, E, Salomaa, V. Haemostatic and other cardiovascular risk factors, and socioeconomic status among middle-aged Finnish men. International Journal of Epidemiology 1995; 24: 1110–6.CrossRefGoogle ScholarPubMed
91Manhem, K, Dotevall, A, Wilhelmsen, L, Rosengren, A. Social gradients in cardiovascular risk factors and symptoms of Swedish men and women: The Goteborg MONICA Study. Journal of Cardiovascular Risk 2000; 7: 259318.Google ScholarPubMed
92Colhoun, HM, Hemingway, H, Poulter, N. Socio-economic status and blood pressure: an overview analysis. Journal of Human Hypertension 1998; 12: 91110.CrossRefGoogle ScholarPubMed
93Whincup, P, Cook, D. Blood pressure and hypertension. In: Kuh, D, Ben-Shlomo, Y, eds. A Life Course Approach to Chronic Disease Epidemiology. Oxford: Oxford University Press, 1997; 121–44.CrossRefGoogle Scholar
94Berenson, GS, Srinivasan, SR, Webber, LS, Nicklas, TA, MacD Hunter, S, Harsha, DW, Johnson, CC, Arbeit, ML, Dalferes, ER, Wattigney, WA, Lawrence, MD. Cardiovascular risk in early life: The Bogalusa Heart Study. Current Concepts Series. Kalamazoo, MI: Upjohn, 1991.Google Scholar
95Bao, W, Threefoot, SA, Srinivasan, SR, Berenson, GS. Essential hypertension predicted by tracking of elevated blood pressure from childhood to adulthood: the Bogalusa Heart Study. American Journal of Hypertension 1995; 8: 657–65.CrossRefGoogle ScholarPubMed
96Tershakovec, AM, Jawad, AF, Stallings, VA, Cortner, JA, Zemel, BS, Shannon, BM. Age-related changes in cardiovascular disease risk factors of hypercholesteraemic children. Journal of Pediatrics 1998; 132: 414–20.CrossRefGoogle Scholar
97Tan, F, Okamoto, M, Suyama, A, Miyatomo, T. Tracking of cardiovascular risk factors and a cohort study on hyperlipidemia in rural schoolchildren in Japan. Journal of Epidemiology 2000; 10: 255–61.CrossRefGoogle Scholar
98Berenson, GS, Srinivasan, SR, Bao, W, Newman, WP, Tracy, RE, Wattigney, WA. Association between multiple cardiovascular risk factors and atherosclerosis in children and young adults. New England Journal of Medicine 1998; 338: 1650–6.CrossRefGoogle ScholarPubMed
99Okasha, M, McCarron, P, McEwen, J, Davey Smith, G. Determinants of adolescent blood pressure: findings from the Glasgow University Student Cohort. Journal of Human Hypertension 2000; 14: 117–24.CrossRefGoogle ScholarPubMed
100Martorell, R, Kettel-Khan, L, Hughes, ML, Gummer-Strawn, LM. Overweight and obesity in preschool children from developing countries. International Journal of Obesity and Related Metabolic Disorders 2000; 24: 959–67.CrossRefGoogle ScholarPubMed
101Dietz, WH. The obesity epidemic in young children. British Medical Journal 2001; 322: 313–4.CrossRefGoogle ScholarPubMed
102Grund, A, Krause, H, Siewers, M, Riekert, H, Muller, MJ. Is TV viewing an index of physical activity and fitness in overweight and normal children? Public Health Nutrition 2001; 4: 1245–51.CrossRefGoogle Scholar
103Psaty, BM, Furberg, CD, Kuller, LH, Cushman, M, Savage, PJ, Levine, D, O'Leary, DH, Bryan, RN, Anderson, M, Lumley, T. Association between blood pressure level and the risk of myocardial infarction, stroke and total mortality: The Cardiovascular Health Study. Archives of Internal Medicine 2001; 161: 1183–92.CrossRefGoogle ScholarPubMed
104Paffenbarger, RS, Williams, JL. Chronic disease in former college students vs. early precursors of fatal stroke. American Journal of Public Health 1967; 57: 1290–9.CrossRefGoogle Scholar
105Paffenbarger, RS, Wing, AL. Chronic disease in former college students. X. The effects of single and multiple characteristics on risk of fatal coronary heart disease. American Journal of Epidemiology 1969; 90: 527–35.CrossRefGoogle ScholarPubMed
106Thorne, MC, Wing, AL, Paffenberger, RS. Chronic disease in former college students VII. Early precursors of nonfatal coronary heart disease. American Journal of Epidemiology 1968; 87: 520–9.CrossRefGoogle ScholarPubMed
107Miura, K, Daviglus, ML, Dyer, AR, Liu, K, Garside, DB, Stamler, J, Greenland, P. Relationship of blood pressure to 25-year mortality due to coronary heart disease, cardiovascular diseases and all causes in young adult men. Archives of Internal Medicine 2001; 161: 1501–8.CrossRefGoogle ScholarPubMed
108McCarron, P, Smith, GD, Okasha, M, McEwen, J. Blood pressure in young adulthood and mortality from cardiovascular disease. Lancet 2000; 355: 1430–1.CrossRefGoogle ScholarPubMed
109Peltonen, M, Stegmayr, B, Asplund, K. Time trends in long-term survival after stroke: the Northern Sweden Multinational Monitoring of Trends and Determinants in Cardiovascular Disease (MONICA) Study, 1985–1994. Stroke 1998; 29: 1358–65.CrossRefGoogle ScholarPubMed
110Dobson, AJ, Evans, A, Ferrario, M, Kuulasmaa, KA, Moltchanov, VA, Sans, S, Tunstall-Pedoe, H, Tuomilehto, JO, Wedel, H, Yarnell, J. Changes in estimated coronary risk in the 1980s: data from 38 populations in the WHO MONICA Project. Annals of Medicine 1998; 30: 199205.CrossRefGoogle ScholarPubMed
111Kuulasmaa, K, Tunstall-Pedoe, H, Dobson, A, Fortmann, S, Sana, S, Tolonen, H, Evans, A, Ferrario, M, Tuomilehto, J. Estimation of contribution of changes in classic risk factors to trends in coronary event rates across WHO MONICA Project populations. Lancet 2000; 355: 675–87.CrossRefGoogle ScholarPubMed
112Fuentes, R, Ilmaniemi, N, Laurikainen, E, Tuomilehto, J, Nissinen, A. Hypertension in Developing Economies: a review of population-based studies carried out from 1980 to 1998. Journal of Hypertension 2000; 18: 521–9.CrossRefGoogle ScholarPubMed
113Yu, Z, Song, G, Guo, Z, Zheng, G, Tian, H, Vartiainen, E, Puska, P, Nissinen, A. Changes in blood pressure, body mass index and salt consumption in a Chinese population. Preventive Medicine 1999; 29: 165–7.CrossRefGoogle ScholarPubMed
114Lindquist, CH, Gower, BA, Goran, MI. Role of dietary factors in ethnic differences in early of cardiovascular disease and type 2 diabetes. American Journal of Clinical Nutrition 2000; 71: 725–32.CrossRefGoogle ScholarPubMed
115Pickering, TG. Why is hypertension more common in African Americans? Journal of Clinical Hypertension 2001; 3: 50–2.CrossRefGoogle ScholarPubMed
116Bao, W, Srinivasan, SR, Wattigney, WA, Berenson, GS. Persistence of multiple cardiovascular risk clustering related to Syndrome X from childhood to young adulthood: the Bogalusa Heart Study. Archives of Internal Medicine 1994; 154: 1842–7.CrossRefGoogle ScholarPubMed
117Berenson, GS, Srinivasan, SR, Nicklas, TA. Atherosclerosis: a nutritional disease of childhood. American Journal of Cardiology 1998; 82: 22T39T.CrossRefGoogle ScholarPubMed
118Reaven, GM. Role of insulin resistance in human disease. Diabetes 1988; 37: 1595–607.CrossRefGoogle ScholarPubMed
119DeFronzo, RA, Ferrannini, E. Insulin resistance: a multifaceted syndrome responsible for NIDDM, obesity, hypertension, dyslipidaemia, and atherosclerotic cardiovascular disease. Diabetes Care 1991; 14: 173–94.CrossRefGoogle ScholarPubMed
120Klag, MG, Ford, DE, Mead, LA, He, J, Whelton, PK, Liang, KY, Levine, DM. Serum cholesterol in young men and subsequent cardiovascular disease. New England Journal of Medicine 1993; 328: 313–8.CrossRefGoogle ScholarPubMed
121Whitaker, RC, Wright, JA, Pepe, MS, Seidel, KD, Dietz, WH. Predicting obesity in young adulthood from childhood and parental obesity. New England Journal of Medicine 1997; 337: 869–73.CrossRefGoogle ScholarPubMed
122Wang, Y, Ge, K, Popkin, BM. Tracking of body mass index from childhood to adolescence: a 6-y follow-up study in China. American Journal of Clinical Nutrition 2000; 72: 1018–24.CrossRefGoogle ScholarPubMed
123Wright, CM, Parker, L, Lamont, D, Craft, AW. Implications of childhood obesity for adult health: findings from thousand families cohort study. British Medical Journal 2001; 323: 1280–4.CrossRefGoogle ScholarPubMed
124Parsons, TJ, Power, C, Manor, O. Fetal and early life growth and body mass index from birth to early adulthood in 1958 British cohort: longitudinal study. British Medical Journal 2001; 323: 1331–5.CrossRefGoogle ScholarPubMed
125Parsons, TJ, Power, C, Logan, S, Summerbell, CD. Childhood predictors of adult obesity: a systematic review. International Journal of Obesity and Related Metabolic Disorders 1999; 23(Suppl. 8) S1–107.Google ScholarPubMed
126Strauss, RS. Adult functional outcome of those born small for gestational age: twenty-six-year follow-up of the 1970 British birth cohort. Journal of the American Medical Association 2000; 283: 625–32.CrossRefGoogle ScholarPubMed
127Diet, Nutrition and the Prevention of Chronic Diseases. Report of a Joint WHO/FAO Expert Consultation. WHO Technical Report Series No. 916. Geneva: World Health Organization, 2003.Google Scholar
128Mann, JI. Diet and risk of coronary heart disease and type 2 diabetes. Lancet 2002; 360: 783–9.CrossRefGoogle ScholarPubMed
129Elisaf, M. The treatment of coronary hear disease: an update. Part 1: an overview of the risk factors for cardiovascular disease. Current Medical Research and Opinion 2001; 17: 1826.Google Scholar
130MacMahon, S, Peto, R, Cutler, J, Collins, R, Sorlie, P, Neaton, J, Abbott, R, Godwin, J, Dyer, A, Stamler, J. Blood pressure, stroke and coronary heart disease. Part 1. prolonged differences in blood pressure: prospective observational studies corrected for the regression dilution bias. Lancet 1990; 335: 765–74.CrossRefGoogle ScholarPubMed
131Kannel, WB. Blood pressure as a cardiovascular risk factor: prevention and treatment. Journal of the American Medical Association 1996; 275: 1571–6.CrossRefGoogle ScholarPubMed
132Hu, FB, Rimm, EB, Stampfer, MJ, Asciero, A, Spiegelman, D, Willett, WC. Prospective study of major dietary patterns and risk of coronary heart disease in men. American Journal of Clinical Nutrition 2000; 72: 912–21.CrossRefGoogle ScholarPubMed
133Hooper, L, Summerbell, CD, Higgins, JPT, Thompson, RL, Clemets, G, Capps, N, Davey Smith, G, Riemersma, RA, Ebrahim, S. Reduced or modified dietary fat for preventing cardiovascular disease. Cochrane Database for Systematic Reviews 2001(3).Google ScholarPubMed
134Lopez, A. Alcohol and smoking as risk factors. Health and Mortality Issues of Global Concern. 1999. volXVII, 374411.Google Scholar
135Jousilahti, P, Tuomilehto, J, Vartiainen, E, Pekkanen, J, Puska, P. Body weight, cardiovascular risk factors, and coronary mortality. 15-year-follow-up of middle-aged men and women in Eastern Finland. Circulation 1996; 93: 1372–9.CrossRefGoogle Scholar
136Wannamethee, SG, Shaper, AG, Walker, M. Changes in physical activity, mortality and incidence of coronary heart disease in older men. Lancet 1998; 351: 1603–8.CrossRefGoogle ScholarPubMed
137Davey Smith, G, Shipley, MJ, Batty, GD, Morris, JN, Marmot, M. Physical activity and cause specific mortality in the Whitehall Study. Public Health 2000; 114: 308–15.CrossRefGoogle ScholarPubMed
138Kauhanen, J, Kaplan, G, Goldberg, DE, Salonen, JT. Beer binging and mortality. Results from the Kuoipo Ischaemic Heart Disease Risk Factor Study, a prospective population-based study. British Medical Journal 1997; 315: 846–51.CrossRefGoogle ScholarPubMed
139Gupta, PC, Mehta, HC. Cohort study of all-cause mortality among tobacco users in Mumbai, India. Bulletin of the World Health Organization 2000; 78: 877–83.Google ScholarPubMed
140Perry, IJ, Wannamethee, SG, Shaper, AG, Alberti, KGMM. Serum true insulin concentration and the risk of clinical non-insulin dependent diabetes during long-term follow-up. International Journal of Epidemiology 1999; 28: 735–44.CrossRefGoogle ScholarPubMed
141Davey Smith, G. Socioeconomic differentials. In: Kuh, D, Ben-Shlomo, Y, eds. A Life Course Approach to Chronic Disease Epidemiology. Oxford: Oxford University Press, 1997, 242–73.CrossRefGoogle Scholar
142Hu, G, Pekkarinen, H, Hänninen, O, Tian, H, Jin, R. Comparision of dietary and non-dietary risk factors in overweight and normal-weight Chinese adults. British Journal of Nutrition 2002; 88: 91–7.CrossRefGoogle Scholar
143Bourne, LT, Lambert, EV, Steyn, K. Where does the black population of South Africa stand on the nutrition transition? Public Health Nutrition 2002; 5(1A): 157–62.CrossRefGoogle ScholarPubMed
144Benjelloun, S. Nutrition transition in Morocco. Public Health Nutrition 2002; 5(1A): 135–40.CrossRefGoogle ScholarPubMed
145Magnus, P, Beaglehole, R. The real contribution of the major risk factors to the coronary epidemics: time to end the ‘only-50%’ myth. Archives of Internal Medicine 2001; 161: 2657–60.CrossRefGoogle Scholar
146McConnachie, A, Hunt, K, Emslie, C, Hart, C, Watt, G. ‘Unwarranted survivals’ and ‘anomalous deaths’ from coronary heart disease: prospective survey of general population. British Medical Journal 2001; 323: 1487–91.CrossRefGoogle ScholarPubMed
147Nelson, RL. Iron and colorectal cancer risk: human studies. Nutrition Reviews 2001; 59: 140–8.CrossRefGoogle ScholarPubMed
148Losier, L. Ambiocontrol as a primary factor of health. Social Science and Medicine 1993; 37: 735–43.CrossRefGoogle Scholar
149Marmot, M. Aetiology of coronary heart disease. Fetal and infant growth and socioeconomic factors in adult life may act together. British Medical Journal 2001; 323: 1261–2.CrossRefGoogle Scholar
150Darnton-Hill, I. Culture, aging and the quality of life. Quality of Life in the Elderly. WHOCC Monograph no. 2. Sendai, Japan: WHO Collaborating Center for Well-being in Aging, Tohoku University School of Medicine, 1993, 920.Google Scholar
151WHO. Ageing: Exploding the Myths. Geneva: World Health Organization, 1999 (document WHO/HSL/AHE/99.1).Google Scholar
152Manton, KG, Corder, L, Stallard, E. Chronic disability trends in elderly United States populations: 1982–1994. Proceedings of the National Academy of Sciences of the United States of America 1997; 94: 2593–8.CrossRefGoogle ScholarPubMed
153Darnton-Hill, I, Coyne, ET, Wahlqvist, ML. Assessment of nutritional status. In: Ratnaike, R, ed. A Practical Guide to Geriatric Practice. Sydney: McGraw-Hill, 2001 Chapter 30, 424–39.Google Scholar
154Philips, DR. Health and Health Care in the Third World. Harlow: Longman, 1990.Google Scholar
155Doak, C, Adair, L, Bentley, M, Zhai, F, Popkin, BM. The underweight/overweight household: an exploration of household sociodemographic and dietary factors in China. Public Health Nutrition 2002; 5: 215–21.CrossRefGoogle ScholarPubMed
156Gibson, DM, Goss, J. The coming crisis of Australian Aged Care: fact or fiction? Australasian Journal of Ageing 1999; 18(Suppl.).CrossRefGoogle Scholar
157Singer, PA, Bowman, KW. Quality care at the end of life. British Medical Journal 2002; 324: 1291–2.CrossRefGoogle ScholarPubMed
158WHO/Tufts University School of Nutrition Science and Policy. Keep Fit for Life: Meeting the Nutritional Needs of Older Persons. Geneva: World Health Organization, 2002.Google Scholar
159Lasheras, C, Fernandez, S, Patterson, AM. Mediterranean diet and age with respect to overall survival in institutionalised, non-smoking elderly people. American Journal of Clinical Nutrition 2000; 71: 987–92.CrossRefGoogle Scholar
160Liu, S, Manson, JE, Lee, IM, Cole, SR, Hennekens, CH, Willett, WC, Buring, JE. Fruit and vegetable intake and risk of cardiovascular disease: the Women's Health Study. American Journal of Clinical Nutrition 2000; 72: 922–8.CrossRefGoogle ScholarPubMed
161Smith, GD, Song, F, Sheldon, TA. Cholesterol lowering and mortality: the importance of considering initial level of risk. British Medical Journal 1993; 306: 1367–73.CrossRefGoogle ScholarPubMed
162Vuori, IM. Health benefits of physical activity with special reference to interaction with diet. Public Health Nutrition 2001; 4(2B): 517–28.CrossRefGoogle ScholarPubMed
163Frankel, S, Elwood, P, Sweetnam, P, Yarnell, J, Davey Smith, G. Birthweight, body mass index in middle age and incident coronary heart disease. Lancet 1996; 348: 1478–80.CrossRefGoogle ScholarPubMed
164Yajnik, CS. The lifecycle effects of nutrition and body size on adult obesity, diabetes and cardiovascular disease. Obesity Reviews 2002; 3: 217–24.CrossRefGoogle ScholarPubMed
165WHO. Obesity: Preventing and Managing the Global Epidemic. Report of a WHO Consultation. Geneva: World Health Organization, 2000.Google Scholar
166Bray, G. Coherent preventive and management strategies for obesity. In: Chadwick, DJ, Cardew, GC, eds. The Origins and Consequences of Obesity. Ciba Foundation Symposium 201. Chichester: Wiley, 1996; 228–54.Google ScholarPubMed
167Freedman, DS, Dietz, WH, Srinivasan, SR, Berenson, GS. The relation of overweight to cardiovascular risk factors among children and adolescents: the Bogalusa Heart Study. Pediatrics 1999; 103: 1175–82.CrossRefGoogle ScholarPubMed
168Styne, DM. Childhood and adolescent obesity: prevalence and significance. Pediatric Clinics of North America 2001; 48: 823–54.CrossRefGoogle Scholar
169Vanhala, M, Vanhala, P, Kumpusalo, E, Halonen, P, Takala, J. Relation between obesity from childhood to adulthood and the metabolic syndrome: population-based study. British Medical Journal 1998; 317: 319.CrossRefGoogle ScholarPubMed
170Willet, WC. Diet and health: what should we eat? Science 1994; 264: 532–7.CrossRefGoogle Scholar
171Bateson, P. Fetal experience and good adult design. International Journal of Epidemiology 2001; 30: 928–34.CrossRefGoogle ScholarPubMed
172Raitakari, OT, Porkka, KV, Viikari, JS, Ronnema, T, Akerblom, HK. Clustering of risk factors for coronary heart disease in children and adolescents. The Cardiovascular Risk in Young Finns Study. Acta Paediatrica 1994; 83: 935–40.CrossRefGoogle ScholarPubMed
173Twisk, JW, Boreham, C, Cran Savage, JM, Strain, J, van Mechelen, W. Clustering of biological risk factors for cardiovascular disease and the longitudinal relationship with lifestyle of an adolescent population: the Northern Ireland Young Hearts Project. Journal of Cardiovascular Risk 1999; 6: 355–62.CrossRefGoogle ScholarPubMed
174Saha, N, Heng, CK, Mozoomdar, BP, Reuben, EM, Soh, HT, Low, PS, Tay, JSH, Liu, Y, Hong, S. Racial variation of factor VII activity and their correlates in healthy Chinese and Indians at low and high risk for coronary artery disease. Atherosclerosis 1995; 117: 3342.CrossRefGoogle ScholarPubMed
175Iso, H, Folsom, AR, Wu, KK, Finch, A, Munger, RG, Sato, S, Shimamoto, T, Terao, T, Komachi, Y. Hemostatic variables in Japanese and Caucasian men: plasma fibrinogen, Factor VIIc, Factor VIIIc, and von Willebrand Factor and their relation to cardiovascular disease risk factors. American Journal of Epidemiology 1989; 130: 925–34.CrossRefGoogle ScholarPubMed
176Martorell, R, Stein, AD, Schroeder, DG. Early nutrition and later adiposity. Journal of Nutrition 2001; 131: 874S–80S.CrossRefGoogle ScholarPubMed
177Schroeder, DG, Martorell, R, Flores, R. Infant and child growth and fatness and fat distribution in Guatemalan adults. American Journal of Epidemiology 1999; 149: 177–85.CrossRefGoogle ScholarPubMed
178Shaw, M, Dorling, D, Gordon, D, Davey, S. The Widening Gap: Health Inequalities and Policy in Britain. Bristol, UK: The Policy Press, 1999.Google Scholar
179UNICEF. The State of the World's Children 1998. UNICEF. Oxford & New York: Oxford University Press, 1998.Google Scholar
180Ramakrishnan, U, Martorell, R, Schroeder, DG, Flores, RJ. Role of intergenerational effects on linear growth. Journal of Nutrition 1998; 129: 544S–9S.CrossRefGoogle Scholar
181Davey Smith, G, Harding, S, Rosato, M. Relation between infants' birth weight and mothers' mortality: prospective observational study. British Medical Journal 2000; 320: 839–40.CrossRefGoogle Scholar
182Sterne, JAC, Davey Smith, G, Leon, DA, Tynelius, P, Rasmussen, F. Fetal growth is associated with parents' cardiovascular mortality: record linkage study. Pediatric Research (Supplement) 2004; Abstract FC9/4.2001 (In press).Google Scholar
183Stene, LC, Magnus, P, Lie, RT, Sovik, O, Joner, G. The Norwegian Childhood Diabetes Study Group. Maternal and paternal age at delivery, birth order, and risk of childhood onset type 1 diabetes: population based cohort study. British Medical Journal 2001; 323: 69.CrossRefGoogle Scholar
184Barker, DJP, Shiell, AW, Barker, ME, Law, CM. Growth in utero and blood pressure levels in the next generation. Journal of Hypertension 2000; 18: 843–6.CrossRefGoogle ScholarPubMed
185Pettit, DJ, Knowler, WC. Long-term effects of the intrauterine environment, birth weight, and breast feeding in Pima Indians. Diabetes Care 1998; 21: B13841.Google Scholar
186Kousta, E, Lawrence, NJ, Penny, A, Millauer, BA, Robinson, S, Johnston, DG, McCarthy, MI. Women with a history of gestational diabetes of European and South Asian origin are shorter than women with normal glucose tolerance in pregnancy. Diabetes 2000; 17: 792–7.CrossRefGoogle ScholarPubMed
187Jang, HC, Min, HK, Lee, HK, Cho, NH, Metzger, BE. Short stature in Korean women: a contribution to the multifactorial predisposition to gestational diabetes mellitus. Diabetologia 1998; 41: 778–83.CrossRefGoogle Scholar
188Montgomery, SM, Ekbom, A. Smoking during pregnancy and diabetes mellitus in a British longitudinal birth cohort. British Medical Journal 2002; 324: 26–7.CrossRefGoogle Scholar
189Nestle, M, Jacobson, MF. Halting the obesity epidemic: a public health policy approach. Public Health Reports 2000; 115: 1224.CrossRefGoogle ScholarPubMed
190Popkin, B. The Nutrition Transition in Low Income Countries: an emerging crisis. Nutrition Reviews 1994; 52: 285–98.CrossRefGoogle ScholarPubMed
191Joseph, KS, Kramer, MS. Review of the evidence on fetal and early childhood antecedents of adult chronic disease. Epidemiology Reviews 1996; 18: 158–74.CrossRefGoogle ScholarPubMed
192Stampfer, MJ, Hu, FB. Primary prevention of coronary heart disease in women through diet and lifestyle. New England Journal of Medicine 2000; 343: 1622.CrossRefGoogle ScholarPubMed
193Tuomilehto, J, Lindstrom, J, Eriksson, JG, Valle, TT, Hamalainen, H, Ilanne-Parika, P, Keinanen-Kiukaanniemi, S, Laakso, M, Louheranta, A, Rastas, M, Salminen, V, Uusitupa, M, Aunola, S, Cepaitis, Z, Moltchanov, V, Hakumaki, M, Mannelin, M, Martikkala, V, Sundvall, J. Prevention of type 2 diabetes mellitus by changes in lifestyle among subjects with impaired glucose tolerance. New England Journal of Medicine 2001; 344: 1343–50.CrossRefGoogle ScholarPubMed
194Pietinen, P, Vartiainen, E, Korhonen, HJ, Kartovaarta, L, Uusitalo, U, Tuomilehto, J, et al. Nutrition as a component in community control of cardiovascular disease (The North Karelia Project). American Journal of Clinical Nutrition 1989; 49: 1017–24.CrossRefGoogle ScholarPubMed
195Farquhar, JW, Fortmann, SP, Flora, JA, Taylor, CB, Haskell, WL, Williams, PT, et al. Effects of community-wide education on cardiovascular disease risk factors: the Stanford Five-City Project. Journal of the American Medical Association 1990; 264: 359–65.CrossRefGoogle Scholar
196Vartiainen, E, Puska, P, Jousilahti, P, Korhonen, HJ, Tuomilehto, J, Nissinen, A. Twenty-year trends in coronary risk factors in North karelia and in other areas of Finland. International Journal of Epidemiology 1994; 23: 495504.CrossRefGoogle ScholarPubMed
197Puska, P, Tuomilehto, J, Nissinen, A, Vartiainen, E. The North Karelia project: 20 year results and experiences. Helsinki: National Public Health Institute (KML), 1995.Google Scholar
198Reger, B, Wootan, MGT, Booth-Butterfield, S. Using mass media to promote healthy eating: a community-based demonstration project. Preventive Medicine 1999; 29: 414–21.CrossRefGoogle ScholarPubMed
199Ebrahim, S, Davey Smith, G. Exporting failure? Coronary heart disease and stroke in developing countries. International Journal of Epidemiology 2001; 30: 201–5.CrossRefGoogle ScholarPubMed
200Puska, P. Coronary heart disease and stroke in developing countries: time to act. International Journal of Epidemiology 2001; 30: 1493–4.CrossRefGoogle ScholarPubMed
201Simell, O, Niinikoski, H, Viikari, J, Rask-Nissilä, L, Tammi, A, Rönnemaa, T. Cardiovascular disease risk factors in young children in the STRIP Baby Project. Annals of Medicine 1999; 31(Suppl. 1): 5561.CrossRefGoogle ScholarPubMed
202Shetty, PS. Childhood obesity in Developing Societies. Bulletin of the Nutrition Foundation of India 1999; 20(2): 14.Google Scholar
203Cutter, J, Tan, BY, Chew, SK. Levels of cardiovascular disease risk factors in Singapore following a national intervention programme. Bulletin of the World Health Organization 2001; 79: 908–15.Google ScholarPubMed
204Narayan, KMV. Prevention of type 2 diabetes. British Medical Journal 2001; 323: 63–4.CrossRefGoogle ScholarPubMed
205Pan, X, Li, G, Hu, Y, Wang, J, Yang, W, An, Z. Effects on diet and exercise in preventing NIDDM in people with impaired glucose tolerance: the Da Qing IGT and diabetes study. Diabetes Care 1997; 20: 537–44.CrossRefGoogle Scholar
206Eriksson, KF, Lindgrade, F. Prevention of type 2 (non-insulin-dependent) diabetes mellitus by diet and physical exercise: the 6-year Malmo feasibility study. Diabetologia 1991; 34: 891–8.CrossRefGoogle ScholarPubMed
207Knowler, WC, Narayan, KMV, Hanson, RL, Nelson, RG, Bennett, PH, Tumilehto, J. Preventing non-insulin-dependent diabetes mellitus. Diabetes 1995; 44: 483–8.CrossRefGoogle Scholar
208 NIDDKD. Diet and exercise delay diabetes and normalize blood glucose. US National Institute of Diabetes, Digestive & Kidney Diseases. Bethesda, MD, USA. http://www.niddk.nih.gov/welcome/releases/02-06-02.htmGoogle Scholar
209Hu, FB, Manson, JE, Stampfer, MJ, Colditz, G, Liu, S, Solomon, CG, Willett, WC. Diet, lifestyle, and the risk of type 2 diabetes mellitus in women. New England Journal of Medicine 2001; 345: 790–7.CrossRefGoogle ScholarPubMed
210Key, TJ, Allen, NE, Spencer, EA, Travis, RC. The effect of diet on risk of cancer. Lancet 2002; 360: 861–8.CrossRefGoogle ScholarPubMed
211Law, MR, Wald, NJ, Thompson, SG. By how much and how quickly does reduction in serum cholesterol concentration lower risk of ischaemic heart disease? British Medical Journal 1994; 308: 367–72.CrossRefGoogle ScholarPubMed
212Puska, P, Vartiainen, E, Tuomilehto, J, Salomaa, V, Nissinen, A. Changes in premature deaths in Finland: successful long-term prevention of cardiovascular diseases. Bulletin of the World Health Organization 1998; 76: 419–25.Google ScholarPubMed
213Ebrahim, S, Davey Smith, G. Multiple risk factor interventions for primary prevention of coronary heart disease. Cochrane Database for Systematic Reviews (Computer File) 2000; CD001561.CrossRefGoogle Scholar
214Hippsley-Cox, J, Pringle, M. General practice workload implications of the national service framework for coronary heart disease: cross sectional study. British Medical Journal 2001; 323: 269–70.CrossRefGoogle Scholar
215James, WPT, Nelson, M, Ralph, A, Leather, S. Socioeconomic determinants of health. The contribution of nutrition inequalities in health. British Medical Journal 1997; 314: 1545–9.CrossRefGoogle ScholarPubMed
216Barker, DJP, Forsén, T, Untela, A, Osmond, C, Eriksson, JG. Size at birth and resilience to effects of poor living conditions in adult life: longitudinal study. British Medical Journal 2001; 323: 1273.CrossRefGoogle ScholarPubMed
217Yach, D, Fluss, SS, Bettcher, D. Targets met, new needs. Politica Internazionale (English) 2001; XXIX(1–2): 233–52.Google Scholar
218Sachs, JD, et al. Macroeconomics and Health. Geneva: World Health Organization, 2001.Google Scholar
219Kramer, MS. Association between restricted fetal growth and adult chronic disease: is it causal? Is it important? American Journal of Epidemiology 2000; 152(7): 605–8.CrossRefGoogle ScholarPubMed