Abstract
Ethnic minority groups are disproportionately affected by cardiovascular diseases (CVDs). The reasons for the high prevalence of CVD in ethnic minority groups are not fully understood. Recently, the importance of early-life developmental factors and their impact on CVDs in adulthood is increasingly being recognised, but little is known about this among ethnic minority groups. Therefore, the current paper aimed to fill this knowledge gap by reviewing the available literature to assess the influence of early-life conditions on CVDs and its risk factors in ethnic minority populations residing in Western countries. A systematic search was performed in PubMed and EMBASE between 1989 and 2014. In total, 1418 studies were identified of which 19 met the inclusion criteria. Six studies investigated the relationship between early-life anthropometrics and CVD risk factors of which all except one found significant associations between the assessed anthropometric measures and CVD risk factors. Seven studies evaluated the influence of childhood socio-economic status (SES) on CVD and risk factors of which five found significant associations between childhood SES measures and CVD risk factors. Five studies investigated the relationship between other early-life conditions including early-life nutrition, physical development, and childhood psychosocial conditions, and CVD risk factors. Four of these studies found significant associations between the assessed childhood conditions and CVD risk factors. This review reinforces the importance of early-life conditions on adult CVD in ethnic minority groups. Improvement of early-life conditions among ethnic minority groups may contribute to reducing CVD risk in these populations.
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Murray CJL, Vos T, Lozano R et al (2012) Disability-adjusted life years (DALYs) for 291 diseases and injuries in 21 regions, 1990–2010: a systematic analysis for the Global Burden of Disease Study 2010. Lancet 380:2197–2223
Lim SS, Vos T, Flaxman A et al (2012) A comparative risk assessment of burden of disease and injury attributable to 67 risk factors and risk factor clusters in 21 regions, 1990–2010: a systematic analysis for the Global Burden of Disease Study 2010. Lancet 380:2224–2260
Ford ES (2013) Trends in predicted 10-year risk of coronary heart disease and cardiovascular disease among U.S. adults from 1999 to 2010. J Am Coll Cardiol 61:2249–2252
Agyemang C, van Oeffelen M, Norredam M et al (2014) Socioeconomic inequalities in stroke incidence among migrant groups: analysis of nationwide data. Stroke 45:2397–2403
Howard G, Goff DC (2012) Population shifts and the future of stroke: forecasts of the future burden of stroke. Ann New York Acad Sci 1268:14–20
Daviglus ML, Pirzada A, Talavera GA (2014) Cardiovascular disease risk factors in the Hispanic/Latino population: lessons from the Hispanic Community Health Study/Study of Latinos (HCHS/SOL). Prog Cardiovasc Dis 57:230–236
Hanson MA, Low FM, Gluckman PD (2011) Epigenetic epidemiology: the rebirth of soft inheritance. Ann Nutr Metab 58(Suppl 2):8–15
Lantz PM, House JS, Lepkowski JM, Williams DR, Mero RP, Chen J (1998) Socioeconomic factors, health behaviors, and mortality: results from a nationally representative prospective study of US adults. JAMA 279(21):1703–1708
Sundquist J, Malmström M, Johansson SE (1999) Cardiovascular risk factors and the neighbourhood environment: a multilevel analysis. Int J Epidemiol 28:841–845
McEniry M (2009) Early-life conditions and older adult health in low- and middle-income countries: a review. J Dev Orig Heal Dis 4:10–29
Lawlor DA, Smith GD (2005) Early life determinants of adult blood pressure. Curr Opin Nephrol Hypertens 14:259–264
He FJ, MacGregor GA (2009) A comprehensive review on salt and health and current experience of worldwide salt reduction programmes. J Hum Hypertens 23:363–384
Crowther NJ (2012) Early determinants of chronic disease in developing countries. Best Pract Res Clin Endocrinol Metab 26:655–665
Barker DJ, Winter PD, Osmond C, Margetts B, Simmonds SJ (1989) Weight in infancy and death from ischaemic heart disease. Lancet 2:577–580
Bhopal R (2004) Glossary of terms relating to ethnicity and race: for reflection and debate. J Epidemiol CommunityHealth 58:441–445
Moubarac J (2013) Persisting problems related to race and ethnicity in public health and epidemiology research. Rev Saúde Pública 47:105–116
Singh GR, Hoy WE (2003) The association between birthweight and current blood pressure: a cross-sectional study in an Australian Aboriginal community. Med J Aust 179:532–535
Sayers SM, Mott SA, Mann KD, Pearce MS, Singh GR (2013) Birthweight and fasting glucose and insulin levels: results from the Aboriginal Birth Cohort Study. Med J Aust 199:112–116. doi:10.5694/mja13.10200
Barrington DS, Adeyemo AA, Rotimi CN (2014) Childhood family living arrangements and blood pressure in black men: the Howard University Family Study. Hypertens 63:48–53
Smits MM, Boyko EJ, Utzschneider KM et al (2012) Arm length is associated with type 2 diabetes mellitus in Japanese-Americans. Diabetologia 55:1679–1684
Subramanyam MA, James SA, Diez-Roux AV et al (2013) Socioeconomic status, John Henryism and blood pressure among African-Americans in the Jackson Heart Study. Soc Sci Med 93:139–146
Pettitt DJ, Forman MR, Hanson RL, Knowler WC, Bennett PH (1997) Breastfeeding and incidence of non-insulin-dependent diabetes mellitus in Pima Indians. Lancet 350:166–168
Valdez R, Athens MA, Thompson GH, Bradshaw BS, Stern MP (1994) Birthweight and adult health outcomes in a biethnic population in the USA. Diabetologia 37:624–631
James SA, Van Hoewyk J, Belli RF, Strogatz DS, Williams DR, Raghunathan TE (2006) Life-course socioeconomic position and hypertension in African American men: The Pitt County Study. Am J Public Health 96:812–817
Spann SJ, Gillespie CF, Davis JS et al (2014) The association between childhood trauma and lipid levels in an adult low-income, minority population. Gen Hosp Psychiat 36:150–155
Dreyfus JG, Lutsey PL, Huxley R et al (2012) Age at menarche and risk of type 2 diabetes among African-American and White women in the Atherosclerosis Risk in Communities (ARIC) Study. Diabetologia 55:2371–2380
Franks PW, Hanson RL, Knowler WC et al (2007) Childhood predictors of young-onset type 2 diabetes. Diabetes 56:2964–2972
De Courten MP, Pettitt DJ, Knowler WC (1996) Hypertension in Pima Indians: prevalence and predictors. Public Health Rep 111(Suppl):40–43
Glymour MM, Avendaño M, Haas S, Berkman LF (2008) Lifecourse social conditions and racial disparities in incidence of first stroke. Ann Epidemiol 18:904–912
Robinson WR, Gordon-Larsen P, Kaufman JS, Suchindran CM, Stevens J (2009) The female-male disparity in obesity prevalence among black American young adults: contributions of sociodemographic characteristics of the childhood family. Am J Clin Nutr 89:1204–1212
Lucove JC, Kaufman JS, James SA (2007) Association between adult and childhood socioeconomic status and prevalence of the metabolic syndrome in African Americans: the pitt county study. Am J Public Health 97:234–236
Pollitt RA, Kaufman JS, Rose KM, Diez-Roux AV, Zeng D, Heiss G (2008) Cumulative life course and adult socioeconomic status and markers of inflammation in adulthood. J Epidemiol CommunityHealth 62:484–491
Roberts CB, Couper DJ, Chang PP, James SA, Rosamond WD, Heiss G (2010) Influence of life-course socioeconomic position on incident heart failure in blacks and whites: the atherosclerosis risk in communities Study. Am J Epidemiol 172:717–727
Falkner B, Hulman S, Kushner H (1998) Birth weight versus childhood growth as determinants of adult blood pressure. Hypertens 31:145–150
The NS, Richardson AS, Gordon-Larsen P (2013) Timing and duration of obesity in relation to diabetes: findings from an ethnically diverse, nationally representative sample. Diabetes Care 36:865–872
Galobardes B, Lynch JW, Smith GD (2004) Childhood socioeconomic circumstances and cause-specific mortality in adulthood: systematic review and interpretation. Epidemiol Rev 26:7–21
Nandi A, Glymour MM, Kawachi I, VanderWeele TJ (2012) Using marginal structural models to estimate the direct effect of adverse childhood social conditions on onset of heart disease, diabetes, and stroke. Epidemiol 23:223–232
Bartz S, Freemark M (2012) Pathogenesis and prevention of type 2 diabetes: parental determinants, breastfeeding, and early childhood nutrition. Curr Diab Rep 12:82–87
Blackwell DL, Lucas JW, Clarke TC (2014) Summary health statistics for U.S. adults: national health interview survey, 2012. Vital Health Stat 10 (260):1–161
Martin RM, Gunnell D, Smith GD (2005) Breastfeeding in infancy and blood pressure in later life: systematic review and meta-analysis. Am J Epidemiol 161:15–26
Fall CHD, Borja JB, Osmond C et al (2011) Infant-feeding patterns and cardiovascular risk factors in young adulthood: data from five cohorts in low- and middle-income countries. Int J Epidemiol 40:47–62
Comstock RD, Castillo EM, Lindsay SP (2004) Four-year review of the use of race and ethnicity in epidemiologic and public health research. Am J Epidemiol 159:611–619
Rechel B, Mladovsky P, Ingleby D, Mackenbach JP, McKee M (2013) Migration and health in an increasingly diverse Europe. Lancet 381:1235–1245
Michaelsen KF, Larnkjær A, Mølgaard C (2012) Amount and quality of dietary proteins during the first two years of life in relation to NCD risk in adulthood. Nutr Metab Cardiovasc Dis 22:781–786
Hunt KJ, Marlow NM, Geregziabher et al (2006) Impact of parental smoking on diabetes, hypertension and the metabolic syndrome in adult men and women in the San Antonio Heart Study. Diabetologia 49:2291–2298
Chen W, Srinivasan SR, Li S, Xu J, Berenson GS (2007) Clustering of long-term trends in metabolic syndrome variables from childhood to adulthood in Blacks and Whites: the Bogalusa Heart Study. Am J Epidemiol 166:527–533
Chen W, Srinivasan SR, Ruan L, Mei H, Berenson GS (2011) Adult hypertension is associated with blood pressure variability in childhood in blacks and whites: the bogalusa heart study. Am J Hypertens 24:77–82
Eriksson M, Carlberg B, Jansson JH (2012) Comparison of blood pressure measurements between an automated oscillometric device and a Hawksley random-zero sphygmomanometer in the northern Sweden MONICA study. Blood Press Monit 17:164–170
Goonasekera CD, Dillon MJ (1995) Random zero sphygmomanometer versus automatic oscillometric blood pressure monitor; is either the instrument of choice? J Hum Hypertens 9:885–889
Agyemang C, Bhopal R, Bruijnzeels M (2005) Negro, Black, Black African, African Caribbean, African American or what? Labelling African origin populations in the health arena in the 21st century. J Epidemiol Community Health 59:1014–1018
Bhopal R, Unwin N, White M et al (1999) Heterogeneity of coronary heart disease risk factors in Indian, Pakistani, Bangladeshi, and European origin populations: cross sectional study. BMJ 319:215–220
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Bijker, R., Agyemang, C. The influence of early-life conditions on cardiovascular disease later in life among ethnic minority populations: a systematic review. Intern Emerg Med 11, 341–353 (2016). https://doi.org/10.1007/s11739-015-1272-y
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DOI: https://doi.org/10.1007/s11739-015-1272-y