Glucose abnormalities and heart failure predict poor prognosis in the population-based Reykjavik Study

Background The risk of cardiovascular disease increases progressively with increasing blood glucose from levels well below the diabetic threshold. In the Reykjavik Study the relationship between heart failure and abnormal glucose regulation was already apparent at the level of impaired glucose tolerance. The aim of this study was to determine the prognosis of participants with any glucose abnormality and heart failure and to test whether the combination of these conditions may adversely affect the subsequent prognosis. Design A prospective population-based study. Methods Data from the first visit of 19 381 participants were used. Participants were divided into groups according to their glycaemic and heart failure level, and comparisons were made between the groups and disease-free participants serving as a reference group. The risk of mortality and morbidity was calculated with adjustments for main cardiovascular risk factors and ischaemic heart disease. Results Participants in the reference group were younger, had lower body mass indices and more seldom a history of myocardial infarction compared with diseased groups. Mortality was lowest in the reference group (P < 0.0001) increasing to a maximum in participants with the combination of glucose abnormality and heart failure. Prognostically, the mortality risk associated with abnormal glucose regulation was increased but was lower than the risk of diabetes. The risk of a new myocardial infarction was highest in participants with diabetes [hazard ratio (HR) 1.6; 95% confidence interval (CI) 1.3-2.0] or diabetes in combination with heart failure (HR 1.8; CI 1.1-2.7). Conclusions Heart failure or glucose abnormalities are related to increased morbidity and mortality. The combination of glucose abnormality and heart failure did, however, not add further to the unfavourable prognosis in the presence of ischaemic heart disease.

[1]  Vilmundur Gudnason,et al.  The association between glucose abnormalities and heart failure in the population-based Reykjavik study. , 2005, Diabetes care.

[2]  J. Benichou,et al.  Choice of time‐scale in Cox's model analysis of epidemiologic cohort data: a simulation study , 2004, Statistics in medicine.

[3]  N. Day,et al.  Association of Hemoglobin A1c with Cardiovascular Disease and Mortality in Adults: The European Prospective Investigation into Cancer in Norfolk , 2004, Annals of Internal Medicine.

[4]  R. Kronmal,et al.  The association of fasting glucose levels with congestive heart failure in diabetic adults > or =65 years: the Cardiovascular Health Study. , 2004, Journal of the American College of Cardiology.

[5]  N. Lamblin,et al.  Impact of diabetes mellitus on long-term survival in patients with congestive heart failure. , 2004, European heart journal.

[6]  C. Torp‐Pedersen,et al.  Influence of diabetes and diabetes-gender interaction on the risk of death in patients hospitalized with congestive heart failure. , 2004, Journal of the American College of Cardiology.

[7]  W. Hundley,et al.  Heart failure prevalence, incidence, and mortality in the elderly with diabetes. , 2004, Diabetes care.

[8]  L. Nepomnyashchikh,et al.  Morphological and Stereological Characteristics of Myocardial Remodeling in Aged Spontaneously Hypertensive SHR Rats , 2003, Bulletin of Experimental Biology and Medicine.

[9]  D. Levy,et al.  Impact of Glucose Intolerance and Insulin Resistance on Cardiac Structure and Function: Sex-Related Differences in the Framingham Heart Study , 2003, Circulation.

[10]  P. Wilson,et al.  Obesity, diabetes, and risk of cardiovascular disease in the elderly. , 2002, The American journal of geriatric cardiology.

[11]  K. Swedberg,et al.  Guidelines for the diagnosis and treatment of chronic heart failure. , 2001, European heart journal.

[12]  A Hofman,et al.  The prognosis of heart failure in the general population: The Rotterdam Study. , 2001, European heart journal.

[13]  Jennifer Y. Liu,et al.  Glycemic Control and Heart Failure Among Adult Patients With Diabetes , 2001, Circulation.

[14]  John Wikstrand,et al.  Effects of Controlled-Release Metoprolol on Total Mortality, Hospitalizations, and Well-being in Patients with Heart Failure: The Metoprolol CR/XL Randomized Intervention Trial in Congestive Heart Failure (MERIT-HF) , 2000 .

[15]  S. Yusuf,et al.  The relationship between glucose and incident cardiovascular events. A metaregression analysis of published data from 20 studies of 95,783 individuals followed for 12.4 years. , 1999, Diabetes care.

[16]  N. Hardin,et al.  The myocardial and vascular pathology of diabetic cardiomyopathy. , 1996, Coronary artery disease.

[17]  G. Thorgeirsson,et al.  The epidemiology of right bundle branch block and its association with cardiovascular morbidity--the Reykjavik Study. , 1993, European heart journal.

[18]  W. Kannel,et al.  Epidemiology and risk profile of cardiac failure , 1988, Cardiovascular Drugs and Therapy.

[19]  W. Kannel,et al.  Cardiac failure and sudden death in the Framingham Study. , 1988, American heart journal.

[20]  W. Kannel,et al.  Role of diabetes in congestive heart failure: the Framingham study. , 1974, The American journal of cardiology.

[21]  K. Lundbaek,et al.  Diabetic angiopathy: a specific vascular disease. , 1954, Lancet.

[22]  S. Jonsell A Method for the Determination of the Heart Size by Teleroentgenography (A Heart Volume Index) , 1939 .

[23]  E L Korn,et al.  Time-to-event analysis of longitudinal follow-up of a survey: choice of the time-scale. , 1997, American journal of epidemiology.

[24]  H. Blackburn,et al.  Cardiovascular survey methods. , 1969, East African medical journal.