Social class differences in coronary heart disease in middle-aged British men: implications for prevention.

BACKGROUND Though social class differences in coronary heart disease (CHD) are well recognized, few studies have assessed the effect of imprecision in social class assessment on the relationship or the overall contribution of social class to attributable CHD risk. METHODS Prospective observational study of the relationship between occupational social class (assessed at baseline and after 20 years), major CHD (coronary death and non-fatal myocardial infarction) and all-cause mortality rates over 20 years among 5628 middle-aged British men with no previous evidence of CHD. RESULTS The age-adjusted hazard of major CHD for manual men relative to non-manual men was 1.41 (95% CI: 1.21, 1.64) before correction and 1.50 (95% CI: 1.25, 1.79) after correction for imprecision of social class measurement. The imprecision-corrected estimate was attenuated to 1.28 (95% CI: 1.06, 1.54) after adjustment for the adult coronary risk factors (blood cholesterol, blood pressure, body mass index, cigarette smoking, alcohol, physical activity, and lung function) and to 1.20 (95% CI: 0.99, 1.45) following further adjustment for height. The population attributable risk fraction of major CHD for social class (manual versus non-manual) was 22% after correction for imprecision in social class, which was reduced to 14% after adjustment for the adult coronary risk factors, and 10% after further adjustment for height. Similar results were obtained for all-cause mortality. CONCLUSIONS Even taking account of measurement imprecision, the contribution of social class to overall CHD risk is modest. Population-wide strategies to reduce major CHD risk factors are likely to have greater potential benefits for CHD prevention than strategies designed specifically to reduce social inequalities in CHD.

[1]  R. Wiggins,et al.  Social inequalities in health by individual and household measures of social position in a cohort of healthy people , 2003, Journal of epidemiology and community health.

[2]  D. Wald,et al.  Homocysteine and cardiovascular disease: evidence on causality from a meta-analysis , 2002, BMJ : British Medical Journal.

[3]  R. Beaglehole,et al.  The real contribution of the major risk factors to the coronary epidemics: time to end the "only-50%" myth. , 2001, Archives of internal medicine.

[4]  G. Smith,et al.  Social circumstances in childhood and cardiovascular disease mortality: prospective observational study of Glasgow University students , 2001, Journal of epidemiology and community health.

[5]  P. Simpson,et al.  Statistical methods in cancer research , 2001, Journal of surgical oncology.

[6]  P. Whincup,et al.  Twenty year follow-up of a cohort based in general practices in 24 British towns. , 2000, Journal of public health medicine.

[7]  J. Manson,et al.  Primary prevention of coronary heart disease in women through diet and lifestyle. , 2000, The New England journal of medicine.

[8]  D. Grobbee,et al.  Employment grade differences in cause specific mortality. A 25 year follow up of civil servants from the first Whitehall study , 2000, Journal of epidemiology and community health.

[9]  A. Dyer,et al.  Low risk-factor profile and long-term cardiovascular and noncardiovascular mortality and life expectancy: findings for 5 large cohorts of young adult and middle-aged men and women. , 1999, JAMA.

[10]  S. Ebrahim,et al.  Serum total homocysteine and coronary heart disease: prospective study in middle aged men , 1999, Heart.

[11]  C. Hart,et al.  Lifetime socioeconomic position and mortality: prospective observational study , 1997, BMJ.

[12]  J. Manson,et al.  Height and the risk of cardiovascular disease in women. , 1995, American journal of epidemiology.

[13]  M. Szklo,et al.  Social inequalities and atherosclerosis. The atherosclerosis risk in communities study. , 1995, American journal of epidemiology.

[14]  J. Manson,et al.  Childhood socioeconomic status and risk of cardiovascular disease in middle aged US women: a prospective study. , 1995, Journal of epidemiology and community health.

[15]  J. Manson,et al.  Height and Incidence of Cardiovascular Disease in Male Physicians , 1993, Circulation.

[16]  E. Limb,et al.  Height: a risk marker for ischaemic heart disease: prospective results from the Caerphilly and Speedwell Heart Disease Studies. , 1992, European heart journal.

[17]  R Weatherall,et al.  Physical activity and ischaemic heart disease in middle-aged British men. , 1991, British heart journal.

[18]  Gower Street,et al.  Health inequalities among British civil servants: the Whitehall II study , 1991, The Lancet.

[19]  S. Duffy,et al.  Repeat measurement of case-control data: correcting risk estimates for misclassification due to regression dilution of lipids in transient ischemic attacks and minor ischemic strokes. , 1991, American journal of epidemiology.

[20]  B. Gardner,et al.  Sexual expression in paraplegia. , 1991, BMJ.

[21]  M J Shipley,et al.  Magnitude and causes of socioeconomic differentials in mortality: further evidence from the Whitehall Study. , 1990, Journal of epidemiology and community health.

[22]  B Rosner,et al.  Correction of logistic regression relative risk estimates and confidence intervals for measurement error: the case of multiple covariates measured with error. , 1990, American journal of epidemiology.

[23]  N. Day,et al.  Misclassification in more than one factor in a case-control study: a combination of Mantel-Haenszel and maximum likelihood approaches. , 1989, Statistics in medicine.

[24]  A. G. Shaper,et al.  ALCOHOL AND MORTALITY IN BRITISH MEN: EXPLAINING THE U-SHAPED CURVE , 1988, The Lancet.

[25]  A. G. Shaper,et al.  Observer bias in blood pressure studies. , 1988, Journal of hypertension.

[26]  D. Cook,et al.  Non-participation and mortality in a prospective study of cardiovascular disease. , 1987, Journal of epidemiology and community health.

[27]  D. Cook,et al.  SOCIAL CLASS DIFFERENCES IN ISCHAEMIC HEART DISEASE IN BRITISH MEN , 1987, The Lancet.

[28]  R. Heller,et al.  Social class and ischaemic heart disease: use of the male:female ratio to identify possible occupational hazards. , 1984, Journal of epidemiology and community health.

[29]  D. Ashby,et al.  Blood lipids in middle-aged British men. , 1983, British heart journal.

[30]  N. Breslow,et al.  Statistical methods in cancer research. Vol. 1. The analysis of case-control studies. , 1981 .

[31]  S J Pocock,et al.  British Regional Heart Study: cardiovascular risk factors in middle-aged men in 24 towns. , 1981, British medical journal.

[32]  M G Marmot,et al.  Employment grade and coronary heart disease in British civil servants. , 1978, Journal of epidemiology and community health.

[33]  T. Pilkington Changing social-class distribution of heart disease , 1978 .

[34]  A. Adelstein,et al.  Changing social-class distribution of heart disease. , 1978, British medical journal.

[35]  H. Keen,et al.  Cardiorespiratory disease and diabetes among middle-aged male Civil Servants. A study of screening and intervention. , 1974, Lancet.

[36]  D Acheson,et al.  Independent inquiry into inequalities in health , 2005 .

[37]  David R. Williams,et al.  Measuring social class in US public health research: concepts, methodologies, and guidelines. , 1997, Annual review of public health.

[38]  M. Woodward,et al.  Social status and coronary heart disease: results from the Scottish Heart Health Study. , 1992, Preventive medicine.

[39]  N. Breslow,et al.  Statistical methods in cancer research: volume 1- The analysis of case-control studies , 1980 .

[40]  N. Breslow,et al.  The analysis of case-control studies , 1980 .