versión impresa ISSN 0041-8781
Rev. Hosp. Clin. v.59 n.3 São Paulo 2004
Systemic hypertension, diabetes mellitus, and dyslipidemia in relation to body mass index: evaluation of a Brazilian population
Hipertensão arterial, diabetes melito e dislipidemia de acordo com o índice de massa corpórea: estudo em uma população brasileira
Cintia Cercato; Márcio Corrêa Mancini; Ana Maria Carvalho Arguello; Vanessa Quintas Passos; Sandra Mara Ferreira Villares; Alfredo Halpern
From the Obesity and Metabolic Diseases Group, Department of Endocrinology and Metabology, Hospital das Clínicas, Faculty of Medicine, University of São Paulo - São Paulo/SP, Brazil. E-mail: firstname.lastname@example.org
OBJECTIVE: To determine the prevalence of systemic hypertension, diabetes mellitus, hypercholesterolemia, and hypertriglyceridemia in a Brazilian population in relation to body mass index.
METHOD: Retrospective evaluation of 1213 adults (mean age: 45.2 ± 12.8; 80.6% females) divided into groups according to body mass index [normal (18.5 - 24.4 kg/m2); overweight (25 - 29.9 kg/m2); grade 1 obesity (30 - 34.9 kg/m2); grade 2 obesity (35 39.9 kg/m2), and grade 3 obesity (> 40 kg/m2)]. The prevalence of hypertension, diabetes mellitus, hypercholesterolemia, and hypertriglyceridemia were analyzed in each group. The severity of cardiovascular risk was determined. High-risk patients were considered those reporting 2 or more of the following factors: systemic hypertension, HDL < 35 mg/dL, total cholesterol > 240 mg/dL, triglycerides > 200 mg/dL when HDL < 35 mg/dL, and glycemia > 126 mg/dL. Moderate-risk patients were those reporting 2 or more of the following factors: systemic hypertension, HDL < 45, triglycerides > 200 mg/dL, and total cholesterol > 200 mg/dL.
RESULTS: The prevalence of systemic hypertension, diabetes mellitus, hypertriglyceridemia, and low HDL-cholesterol levels increased along with weight, but the prevalence of hypercholesterolemia did not. The odds ratio adjusted for gender and age, according to grade of obesity compared with patients with normal weight were respectively 5.9, 8.6, and 14.8 for systemic hypertension, 3.8, 5.8, and 9.2 for diabetes mellitus and 1.2, 1.3, and 2.6 for hypertriglyceridemia. We also verified that body mass index was positively related to cardiovascular high risk (P < .001)
CONCLUSION: In our population, cardiovascular risk increased along with body mass index.
Key words: Cardiovascular risk factors. Obesity. Body mass index. Diabetes mellitus. Systemic hypertension.
OBJETIVO: Determinar prevalência de hipertensão arterial, diabete melito, hipercolesterolemia e hipertrigliceridemia em uma população brasileira de acordo com grau de obesidade.
MÉTODO: Estudo retrospectivo em 1213 adultos (média de idade: 45,2 ± 12,8 anos; 80,6 % sexo feminino) em grupos de acordo com índice de massa corpórea (normal:18,5-24,4 Kg/m2; sobrepeso 25-29,9 Kg/m2; obesidade classe1: 30-34,9 Kg/m2; classe 2: 35-39,9 Kg/m2 ; classe 3:³ 40 Kgm2). Analisamos presença de hipertensão arterial, diabete melito, hipercolesterolemia e hipertrigliceridemia em cada grupo. Determinamos severidade do risco cardiovascular, considerando risco alto pacientes com 2 ou mais dos seguintes fatores: hipertensão arterial, HDL < 35mg/dl, colesterol total >240mg/dl, triglicérides >200mg/dl quando HDL < 35mg/dl e glicemia >126mg/dl; risco moderado aqueles com 2 ou mais dos seguintes fatores: hipertensão arterial, HDL < 45, triglicérides >200mg/dl e colesterol total >200mg/dl.
RESULTADOS: Houve aumento significativo da prevalência de hipertensão arterial, diabete melito, hipertrigliceridemia, HDL-colesterol baixo, porém não houve maior prevalência de hipercolesterolemia. O odds ratio, ajustado para idade e sexo, para obesidade em relação aos indivíduos de peso normal foi 5,9, 8,6 e 14,8 para hipertensão; 3,8, 5,8 e 9,2 para diabete melito e 1,2, 1,3 e 2,6 para hipertrigliceridemia. Após estabelecer severidade do risco cardiovascular, verificamos que o índice de massa corpórea se correlacionou de forma significativa com alto risco cardiovascular (p< 0.0001).
CONCLUSÃO: Em nossa população, observamos aumento do risco cardiovascular com aumento do índice de massa corpórea.
Unitermos: Fatores de risco cardiovascular. Obesidade. Índice de massa corpórea. Diabetes melito. Hipertensão arterial sistêmica.
Cardiovascular diseases are a major cause for mortality in our country.1 Quite a number of epidemiological studies have reported a clear correlation between obesity and cardiovascular risk factors.2-4 This correlation has become quite relevant since the prevalence of obesity has been increasing significantly in Brazil.5 Data from the National Health and Nutrition Survey (Pesquisa Nacional de Saúde e Nutrição PNSN) show that about 40% of Brazilian adult population is overweight to some degree.6
People who are overweight are predisposed to higher cardiovascular risk, especially because obesity is closely associated with other factors, such as systemic hypertension (SH), glucose intolerance, diabetes mellitus (DM), and dyslipidemia.7-10 Other studies have shown that obesity is an independent risk factor for the occurrence of atherosclerosis.11
Obesity is defined as the excess of body fat in relation to lean mass. The body mass index (BMI) is a simple, reproducible measurement commonly used to classify adults as overweight or obese. BMI provides good correlation with body fat index. Many studies have demonstrated the impact of BMI in a given population: the higher a person's BMI, the higher their cardiovascular risk.2-4,7-10,12 In Brazil, however, there are few publications to show the correlation between BMI and cardiovascular risk factors.13-15
The present study was aimed at investigating the prevalence of major cardiovascular risk factors in a Brazilian population and at subdividing that population into high, moderate, and low cardiovascular risk categories according to obesity level based on BMI data.
The study population was made up of 1213 individuals who sought assistance at our hospital. Out of those, 292 nonobese patients (BMI < 30 kg/m2) sought clinical services for a regular check up; 921 obese patients who came to the Endocrinology Obesity Service were seeking treatment for their overweight conditions. The records of all patients who were assisted from 1997 through 2001 were reviewed retrospectively. Only those with complete data on the variables used in the present study were included. A total of 978 female patients (80.6%), and 235 male patients (19.4%) were studied, with a mean average age of 45.2 ± 12.8 years. The higher number of female patients in the study is due to the fact that more women seek assistance for treating obesity than do men.
BMI calculated as body weight in kilograms divided by height in square meters was used to group patients as being normal weight (18.5 - 24.4 kg/m2), overweight (25 - 29.9 kg/m2), mildly obese (grade 1: 30 - 34.9 kg/m2), moderately obese (grade 2: 35 39.9 kg/m2), and severely obese (grade 3: > 40 kg/m2), following World Health Organization criteria (Table 1).16
Data on systemic hypertension, DM, and lipid metabolic alterations were accessed for each patient from medical records. Plasma glucose, total cholesterol, HDL-C, and triglycerides were determined by an automated enzymatic method (Cobas Integra Plus equipment using commercial kits from Roche Diagnostic System Inc., Texas).
System hypertension was definedfollowing the Joint National Committee17as systolic blood pressure (sBP) > 140 mm Hg, and diastolic blood pressure (dBP) > 90 mm Hg, or having a report on the use of hypertension drugs in the patient´s records. The methodology used to measure blood pressure was auscultatory. The Obesity Outpatient Unit at our hospital uses special blood pressure equipment for obese patients to adjust to the larger arm circumference.
Diabetes mellitus was defined as the presence of a fasting glucose level of > 126 mg/dL, as suggested by the Expert Committee on the Diagnosis and Classification of Diabetes Mellitus,18 or having a report of the use of insulin or the administration of oral hypoglycemic drugs in the patient's records.
Hypercholesterolemia was considered to be the presence of a total cholesterol level over 200 mg/dL. Hypertriglyceridemia was defined as a triglyceride level greater than 150 mg/dL, following the criteria as in Summary of the Third Report of the National Cholesterol Education Program (NCEP, 2001).19
In the present study, in addition to carrying out an analysis on the prevalence of cardiovascular risk factors for each obesity level, cardiovascular severity risk was also evaluated. In order to do so, the study population was divided into 3 cardiovascular risk categories by using criteria as suggested by Leite et al. in 200220:
A) Moderate risk2 or more of the following factors are present: total cholesterol > 200 mg/dL, HDL > 45 mg/dL, triglycerides > 200 mg/dL, plasma glycemia > 126 mg/dL, sBP > 140 mm Hg, and dBP > 90 mm Hg.
B) High risk2 or more of the following criteria are present: total cholesterol > 240 mg/dL, HDL < 35 mg/dL, triglycerides > 200 mg/dL, and HDL < 35 mg/dL, plasma glycemia > 126 mg/dL, sBP > 140 mm Hg and dBP > 90 mm Hg.
C) Low risk: when patients did not present any or presented only 1 of the factors for moderate or high risk.
Statistics analysis was carried out using the EPI-Info software program. For the continuous variables, the analysis was carried out through mean and mean deviation calculation. For classification purposes, absolute and percentile frequencies of variables were calculated. For comparative analysis, the chi-square and Student t tests were used to determine differences significance between ratios and means respectively. For the purpose of comparing mean values among independent groups, 1-way analysis of variance was used. When testing proved significant, the Bonferroni adjustment test was used for group comparisons (in groups of 2). A logistic regression model was used to assess the correlation between BMIirrespective of any other variableand high cardiovascular risk. All tests were carried out at the 5% significance level.
The population under study was made up of 1213 individuals, with 80.6% being females. Population demographics can be found in table 2. There was a significant difference between groups in relation to age and gender. Individuals in the normal-weight and overweight groups were made up of older patients, mostly males.
Major cardiovascular risks based on BMI can be found in table 3. An increase in the prevalence of systemic hypertension, DM, hypertriglyceridemia, and low HDL-cholesterol in relation to increasing BMI was clear. No association was found between hypercholesterolemia or higher LDL-cholesterol levels and higher BMI. The risk factors most clearly associated with being overweight or obese were systemic hypertension and DM.
The risk for an overweight or obese individual for developing systemic hypertension, DM, hypertriglyceridemia, and hypercholesterolemia for each grade of BMI when compared to normal weight individuals can be found in table 4. An analysis was carried out after age and gender adjustment as a result of group differences. Systemic hypertension and DM risks were significantly higher in individuals whose BMI was greater than 30 kg/m2. Individuals who are severely obese also reported a significant risk for developing hypertriglyceridemia.
When the population was divided into cardiovascular risk categories, according to the criteria of Leite et al.,20 as BMI increased so did the percentage of patients at high cardiovascular risk, while low cardiovascular risk decreased (Figure 1). Through the logistic regression model, BMI proved to be significantly correlated to high cardiovascular risk (P < .001).
The present study was undertaken to examine the prevalence of major risk factors for atherosclerotic cardiovascular diseases associated with obesity level based on BMI. Additionally, risk factors were aggregated to subdivide the population into high, moderate, and low cardiovascular risk.
A clear association was detected between increased BMI values and systemic hypertension, which was consistent with previous reports in literature. Most epidemiological studies show that obesity is a strong independent risk factor for systemic hypertension.21,22 As early as 1987 while studying hypertension precursors in young adults, Framingham researchers demonstrated that 78% of systemic hypertension cases in males and 65% of hypertension cases in females could be a direct result of obesity23. In Brazil, Gus et al. 14 have demonstrated that BMI was the anthropometric measurement that presented the most consistent association with systemic hypertension, both in males and females. Carneiro et al.13 demonstrated that body fat distribution is also a very important determinant of arterial hypertension.
Other studies in the literature have demonstrated that the relative risk of developing type 2 DM increases exponentially with increased BMI24,25. Recent publications include data from over 84,000 women who participated in the Nurses' Health Study, demonstrating obesity to be a major risk for the onset of diabetes. Women who reported BMI over 35 kg/m2 were shown to be 39 times more likely to developing diabetes compared with those who were normal weight24. In our population, individuals who were moderately obese (BMI between 35 and 39.9 kg/m2) and severely obese (BMI > 40 kg/m2) were respectively at 5.8 and 9.2 times higher risk of developing DM compared with those who reported normal BMI.
As for plasma lipids, the present study revealed that higher levels of triglycerides and reduced HDL-cholesterol levels were associated with obesity. However, the study did not reveal any association between elevated levels of total cholesterol or LDL-cholesterol and obesity. Those data are consistent with reported findings that the major dyslipidemia associated with obesity is a mild to moderate increase in triglycerides and a decrease HDL-cholesterol.26,27 Such alterations are usually associated with small, dense LDL particles that are more atherogenic since they have lower affinity with LDL receptors, closer binding to arterial wall proteoglycans, and higher susceptibility to oxidation.28 Previous studies have demonstrated that an increased BMI is associated with reduction in LDL particle size.27,29 Therefore, although no increase in LDL-cholesterol level was found in association with obesity in the population under study, small, dense LDL particles may have increased, since obesity was shown to be associated with higher triglyceride levels and lower HDL-cholesterol levels.
In addition to examining each of the major risk factors individually against BMI, assessment of the severity level of cardiovascular risks by aggregating all those factors and subdividing the population into high, moderate, and low cardiovascular risk categories was attempted. To reach such categorization, criteria as suggested by Leite et al.20 were used. The population under study showed BMI and high cardiovascular risk to be significantly associated. The data are compatible with findings reported in the literature of higher myocardium infarction risk and cardiovascular mortality in obese individuals.3,4,9
In the present study we analyzed just the major risk factors for coronary heart disease, i.e., blood pressure, total cholesterol, triglycerides, and diabetes. However, part of the relationship between obesity and cardiovascular risk could be mediated by newly identified risk factors. One of these is insulin resistance and its companion, hyperinsulinemia. Several hypotheses have been proposed for a causative link between insulin resistance (or hyperinsulinemia) and cardiovascular risk.30,31 Second, obese individuals typically carry a proinflammatory state that may predispose them to acute coronary syndromes. This state is characterized by elevations of serum high-sensitivity C-reactive protein (hs-CRP); in fact, increased levels of hs-CRP reflect high cytokine levels that may render otherwise stable atherosclerotic plaques vulnerable to plaque rupture32. Previous studies have demonstrated that obesity is associated with elevations of hs-CPR33,34. An excess of adipose tissue apparently secretes increased amounts of several cytokines that underlie the proinflammatory state.34,35 Other studies are necessary to investigate these emerging risk factors in a Brazilian population.
We conclude that BMI assessment in a Brazilian population has demonstrated that increasing levels of obesity are associated with a higher prevalence of systemic hypertension, DM, and hypertriglyceridemia, as well as reduced HDL-cholesterol levels. These results are consistent with those reported in the literature and, taken together, are proof that obesity is clearly associated with a profile of unfavorable risks for cardiovascular disease, thus emphasizing the importance of prevention and treatment of obesity.
The authors would like to acknowledge Regina Alfarano, PhD, for the English version.
1. Mansur AP, Favarato D, Souza MFM, Aratian SD, Aldrighi JM, Cesar LAM, et al. Tendência da mortalidade por doenças circulatórias no Brasil de 1979 a 1996. Arq Bras Cardiol 2001;76:497-503. [ Links ]
2. Calle EE, Thun MJ, Petrelli JM, Rodriguez C, Heath CW Jr. Body mass index and mortality in a prospective cohort of US adults. N Engl J Med 1999;341(15):1097-105. [ Links ]
3. Jousilahti P, Tuomilehto J, Vartiainen E, Eriksson 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 (7):1372-9 [ Links ]
4. Willett WC, Manson JE, Stampfer MJ, Colditz GA, Rosner B, Speizer FE, et al. Weight, weight change, and coronary heart disease in women. JAMA 1995; 273(6): 461-5 [ Links ]
5. Monteiro CA, Conde Wl. A tendência secular da obesidade segundo estratos sociais: nordeste e sudeste do Brasil, 1975-1989-1997. Arq Bras Endocrinol Metab 1999;43(3):186-94 [ Links ]
6. Instituto Nacional de Alimentação e Nutrição (INAN). Pesquisa Nacional sobre Saúde e Nutrição(PNSN). Condições nutricionais da população brasileira: adultos e idosos. Brasília, 1991 [ Links ]
7. Dalton M, Cameron AJ, Zimmet PZ, Shaw JE, Jolley D, Dunstan DW, et al. Waist circumference, waist-hip ratio and body mass index and their correlation with cardiovascular disease risk factors in Australian adults. J Intern Med 2003;254(6):555-63. [ Links ]
8. Hjermann I The metabolic cardiovascular syndrome: syndrome X, Reavan's syndrome, insulin resistance syndrome, atherothrombogenic syndrome. J Cardiovasc Pharmacol 1992; 20(suppl. 8): S5-S10. [ Links ]
9. Jonsson S, Hedblad B, Engstrom G, Nilsson P, Berglund G, Janzon L. Influence of obesity on cardiovascular risk. Twenty-three-year follow-up of 22,025 men from an urban Swedish population. Int J Obes Relat Metab Disord 2002;26(8):1046-53. [ Links ]
10. Ho SC, Chen YM, Woo JL, Leung SS, Lam TH, Janus ED. Association between simple anthropometric indices and cardiovascular risk factors. Int J Obes Relat Metab Disord 2001;25(11):1689-97. [ Links ]
11. Hubert HB, Feinleib M, McNamara PM, Castelli WP. Obesity as an independent risk factor for cardiovascular disease: a 26-year follow-up of participants in the Framingham Heart Study. Circulation 1983;67(5):968-77 [ Links ]
12. Lamon-Fava S, Wilson PWF, Schaefer EJ. Impact of body mass index on coronary heart disease risk factors in men and women. The Framingham Offspring Study. Arterioscler Thromb Vasc Biol. 1996; 16: 1509-15. [ Links ]
13. Carneiro G, Faria AN, Ribeiro Filho FF, Guimaraes A, Lerario D, Influence of body fat distribution on the prevalence of arterial hypertension and other cardiovascular risk factors in obese patients. Rev Assoc Med Bras. 2003 ; 49(3):306-11 [ Links ]
14. Gus M, Moreira LB, Pimentel M, Gleisener AL, Moraes RS, Fuchs FD. Associação entre Diferentes Indicadores de Obesidade e Prevalência de Hipertensão Arterial. Arq Bras Cardiol 1998;70(2):111-14. [ Links ]
15. Cervato AM, Mazzilli RN, Martins IS, Marucci MDE F. Dieta habitual e fatores de risco para doenças cardiovasculares. Rev. Saúde Pública 1997;31:227-35. [ Links ]
16. World Health Organization, Obesity: Preventing and Managing the Global Epidemic (World Health Organization, Geneva, 1998). [ Links ]
17. The Fifth Report of the Joint National Committee on Detection, Education, and Treatment of High Blood Pressure (JNC V). Arch Intern Med 1993;153(2):154-83. [ Links ]
18. Report of the Expert committee on the diagnosis and classification of diabetes mellitus. Diabetes care 1997;20:1183-97. [ Links ]
19. Executive summary of the third report of the National Cholesterol Education Program ( NCEP) Expert Panel on detection , evaluation and treatment of high blood cholesterol in adults (Adult Treatment Panel III) . JAMA. 2001; 285(19): 2486-97. [ Links ]
20. Leite CC, Wajchenberg BL, Radominski R, Matsuda D, Cerri GG, Halpern A. Intra-abdominal thickness by ultrasonography to predict risk factors for cardiovascular disease and its correlation with anthropometric measurements. Metabolism 2002; 51:1034-40. [ Links ]
21. Stamler R, Stamler J, Riedlinger WF, Algera G, Roberts RH. Weight and blood pressure. Findings in hypertension screening of 1 million Americans. JAMA 1978; 240: 1607-10. [ Links ]
22. Huang Z, Willett WC, Manson JE, Rosner B, Stampfer MJ, Speizer FE, et al. Body weight, weight change, and risk for hypertension in women. Ann Intern Med 1998;128(2):81-8 [ Links ]
23. Garrison RJ, Kannel WB, Stokes J 3rd, Castelli WP. Incidence and precursors of hypertension in young adults: the Framingham Offspring Study. Prev Med 1987;16:23-51 [ Links ]
24. Hu FB, Manson JE, Stampfer MJ, Colditz G, Liu S, Solomon CG, et al. Diet, lifestyle, and the risk of type 2 diabetes mellitus in women. N Engl J Med 2001;345:790-7 [ Links ]
25. Chan JM, Rimm EB, Colditz GA, Stampfer MJ, Willett WC. Obesity fat distribution and weight gain as risk factors for clinical diabetes in men. Diabetes Care 1994;17: 961-969. [ Links ]
26. Katzel LI, Krauss RM, Goldberg AP. Relations of plasma TG and HDL-C concentrations to body composition and plasma insulin levels are altered in men with small LDL particles. Arterioscler Thromb Vasc Biol 1994; 14:1121-1128. [ Links ]
27. Grundy SM. Hypertriglyceridemia, atherogenic dyslipidemia, and the metabolic syndrome. Am J Cardiol 1998;81 (suppl): 18B-25B. [ Links ]
28. Packard CJ, Shepherd J. Lipoprotein heterogeneity and apolipoprotein B metabolism. Arterioscler Thromb Vasc Biol 1997;17:3542-56. [ Links ]
29. Lamarche B, Tchernof A, Moorjani S, Cantin B, Dagenais GR, Lupien PJ, et al. Small, dense low density lipoprotein particles as a predictor of the risk of ischemic heart disease in men. Prospective results from the Quebec Cardiovascular Study. Circulation 1997;95: 69-75. [ Links ]
30. Laws A, Reaven GM. Insulin resistance and risk factors for coronary heart disease. Bailliere's Clin Endocrinol Metab 1993; 7: 10631078. [ Links ]
31. Haffner SM. Epidemiology of insulin resistance and its relation to coronary artery disease. Am J Cardiol 1999; 84: 11J14J. [ Links ]
32. Blake GJ, Ridker PM. Novel clinical markers of vascular wall inflammation. Circ Res 2001; 89: 763771. [ Links ]
33. Chambers JC, Eda S, Bassett P, Karim Y, Thompson SG, Gallimore JR, et al. C-reactive protein, insulin resistance, central obesity, and coronary heart disease risk in Indian Asians from the United Kingdom compared with European whites. Circulation 2001; 104: 145150. [ Links ]
34. Festa A, D'Agostino R Jr, Williams K, Karter AJ, Mayer-Davis EJ, Tracy RP,et al. The relation of body fat mass and distribution to markers of chronic inflammation. Int J Obes Relat Metab Disord 2001; 25: 14071415. [ Links ]
35. Sakkinen PA, Wahl P, Cushman M, Lewis MR, Tracy RP. Clustering of procoagulation, inflammation, and fibrinolysis variables with metabolic factors in insulin resistance syndrome. Am J Epidemiol 2000; 152: 897907. [ Links ]
Received for publication on September 23, 2003