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Diabetes and hypertension increases in a society with abdominal obesity: results of the Mexican National Health Survey 2000

Published online by Cambridge University Press:  02 January 2007

Claudia P Sánchez-Castillo*
Affiliation:
Instituto Nacional de Ciencias Médicas y Nutrición Salvador Zubirán, Dirección de Nutrición, Departamento de Fisiología de la Nutrición, Vasco de Quiroga 15, Tlalpan, México14000, DF
Oscar Velásquez-Monroy
Affiliation:
Centro Nacional de Vigilancia Epidemiológica, Dirección del Pgrama de Salud del Adulto y el Anciano, Secretaría de Salud, México
Agustín Lara-Esqueda
Affiliation:
Centro Nacional de Vigilancia Epidemiológica, Dirección del Pgrama de Salud del Adulto y el Anciano, Secretaría de Salud, México
Arturo Berber
Affiliation:
Hospital Infantil de México ‘Federico Gómez’, México
Jaime Sepulveda
Affiliation:
National Health Survey 2000, México
Roberto Tapia-Conyer
Affiliation:
Subsecretaría de Prevención y Protección de la Salud, Secretaría de Salud, México
W Philip T James
Affiliation:
International Obesity Task Force, UK
*
*Corresponding author: Email kailas@prodigy.net.mx
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Abstract

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Objectives

To determine the prevalences of overweight, obesity, type 2 diabetes mellitus (DM) and hypertension (HT) in the Mexican population and compare them with those of a previous Mexican urban survey and an American survey.

Design

A structured, randomised, nationally representative Mexican sample was compared with a 1993 Mexican urban survey and the US Third National Health and Nutrition Examination Survey (NHANES III) of non-Hispanic Whites.

Setting

The Mexican National Health Survey 2000.

Subjects

Subjects were 12856 men and 28332 women, aged 20–69 years, who had their body weight, height, waist circumference (WC), blood pressure and fasting capillary blood glucose measured.

Results

Mexican adult men and women had a high prevalence of overweight (41.3 and 36.3%, respectively) and obesity (19.4 and 29.0%, respectively), similar to those in the USA in 1988–1992 and exceeding those of the 1993 Mexican survey. The prevalence of HT was 33.3% in men and 25.6% in women, with inferred DM rates of 5.6 and 9.7%, respectively. Abdominal obesity affected 46.3% of men (WC ≥ 94 cm) and 81.4% of women (WC ≥ 80 cm). There was a high prevalence of abdominal obesity in normal-weight women, with co-morbidities relating better to WC than to body mass index (BMI) in both sexes. Rates of DM and HT exceeded US rates on a comparable BMI or WC basis in adults aged <50 years.

Conclusion

The high prevalence of obesity and abdominal obesity in Mexicans is associated with markedly increased prevalences of DM and HT to levels comparable with, or even higher than, those in NHANES III of non-Hispanic Whites.

Type
Research Article
Copyright
Copyright © CABI Publishing 2005

References

1Castillo-Salgado, C, Análisis de situación de salud en las Américas, 1999–2000. Boletín Epidemiológico/OPS, 2000; 21(4).Google Scholar
2Rivera Dommarco, J, Shamah Levy, T, Villalpando Hernández, S, González de Cossío, T, Hernández Prado, B, Sepúlveda, J. Encuesta Nacional de Nutrición (1999). Estado Nutricio de Niños y Mujeres en México. Cuernavaca, Morelos, México: Instituto Nacional de Salud Pública, 2001.Google Scholar
3Allen, LH, Rosado, JL, Casterline, JE, Martínez, H, López, P, Muñoz, E et al. , Vitamin B-12 deficiency and malabsorption are highly prevalent in rural Mexican communities. American Journal of Clinical Nutrition, 1995; 62: 1013–9.Google Scholar
4Sánchez-Castillo, CP, Lara, JJ, Romero-Keith, J, Castorena, G, Villa, AR, López, N et al. , Nutrition and cataract in low-income Mexicans: experience in an Eye Camp. Archivos Latinoamericanos de Nutricion 2001; 51(2): 113–21.Google Scholar
5Sperduto, RD, Hu, TS, Milton, RC, Zhao-Yao, L, Dawsey, S, Guo, WD. The Lixian Cataract Studies: two nutrition intervention trials. Archives of Ophthalmology 1993; 111: 1246–53.Google Scholar
6 Encuesta Nacional de Alimentación y Nutrición en el Medio Rural (ENAL 89). México: Instituto Nacional de la Nutrición Salvador Zubirán (INNSZ), 1989.Google Scholar
7 Encuesta Nacional de Alimentación y Nutrición en el Medio Rural (ENAL 96). México: Instituto Nacional de la Nutrición Salvador Zubirán (INNSZ), 1996.Google Scholar
8 Food and Agriculture Organization (FAO)/World Health Organization (WHO). Requirement of Vitamin A, Thiamine, Riboflavin and Niacin. FAO Food and Nutrition Series No. 8/WHO Technical Report Series No. 362. Geneva: WHO, 1967.Google Scholar
9 Secretaría de Salud. Mortalidad. Principales causas de mortalidad general. Estadísticas Vitales. Estados Unidos Mexicanos: Secretaría de Salud, 1999.Google Scholar
10 Encuesta Nacional de Enfermedades Crónicas (ENEC). México: Epidemiología, Secretaría de Salud, 1993.Google Scholar
11Arroyo, P, Loria, A, Fernández, V, Flegal, KM, Kuri-Morales, P, Olaiz, G, et al. Prevalence of pre-obesity and obesity in urban adult Mexicans in comparison with other large surveys. Obesity Research 2000; 8: 179–85.CrossRefGoogle ScholarPubMed
12Duggirala, R, Blangero, J, Almasy, L, Arya, R, Dyer, TD, Williams, KL, et al. A major locus for fasting insulin concentrations and insulin resistance on chromosome 6q with strong pleiotropic effects on obesity-related phenotypes in nondiabetic Mexican Americans. American Journal of Human Genetics 2001; 68: 1149–64.Google Scholar
13Hales, CN, Barker, DJP. The thrifty phenotype hypothesis. British Medical Bulletin 2001; 60: 520.Google Scholar
14Valdespino, JL, Olaiz, G, López-Barajas, MP, Mendoza, L, Palma, O, Velázquez, O et al. , Encuesta Nacional de Salud 2000. Tomo I: Vivienda, Población y Utilización de Servicios de Salud. Cuernavaca, Morelos, México: Instituto Nacional de Salud Pública, 2003.Google Scholar
15 Instituto Nacional de Geografía y Estdística, www.inegi. gob.mx/Google Scholar
16 Report of the Expert Committee on the Diagnosis and Classification of Diabetes Mellitus. Diabetes Care 1997; 20: 1183–97.CrossRefGoogle Scholar
17 American Heart Association science advisory guide to primary prevention of cardiovascular diseases: a statement for healthcare professionals from the Task Force on Risk Reduction. Circulation 1997; 95 2329–31.CrossRefGoogle Scholar
18 StatSoft, Inc. STATISTICA for Windows [computer program manual]. Tulsa, OK: StatSoft Inc., 2000.Google Scholar
19 World Health Organization (WHO). Obesity. Preventing and Managing the Global Epidemic. Report of a WHO Consultation on Obesity, Geneva, 3–5 June 1997. Geneva: WHO, 1998;Google Scholar
21 US Department of Health and Human Services. National Health and Nutrition Examination Survey III, 1988–94. CD-ROM Series 11 No. 1. SETS Version 1.22a. Hyattsville, MD: National Centre for Health Statistics/Centers for Disease Control and Prevention, revised 10 1997.Google Scholar
22Ford, 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(3): 356–9.Google Scholar
23Norgan, NG, Jones, PRM. The effect of standardising the body mass index for relative sitting height. International Journal of Obesity and Related Metabolic Disorders 1995; 19(3): 206–8.Google ScholarPubMed
24Benn, RT. Some mathematical properties of weight for height indices used as measures of adiposity. British Journal of Preventive & Social Medicine 1971; 25: 4250.Google ScholarPubMed
25Petry, CJ, Hales, CN. Long-term effects on offsprig of intrauterine exposure to deficits in nutrition. Human Reproduction Update 2000; 6(6): 578–86.CrossRefGoogle ScholarPubMed
26James, WP, Coore, HG. Persistent impairment of insulin secretion and glucose tolerance after malnutrition. American Journal of Clinical Nutrition 1970; 23(4): 386–9.Google Scholar
27Sanchez-Castillo, CP, Lara Esqueda, A, Berber, A, Velázquez Monroy, O, Tapia Conyer, R, James, WPT. Encuesta Nacional de Salud (ENSA) 2000 Working Group. Anthropometric cut-off points for predicting type 2 diabetes mellitus and hypertension in the Mexican National Health Survey 2000. Obesity Research 2003; 11(3): 442–51.Google Scholar
28Schroeder, 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.Google Scholar
29Barker, DJ, Hales, CN, Fall, CH, Osmond, C, Phipps, K, Clark, PM. Type 2 (non-insulin-dependent) diabetes mellitus, hypertension and hyperlipidaemia (syndrome X): relation to reduced fetal growth. Diabetologia 1993; 36: 162–7.Google Scholar
30James, WP. Long-term fetal programming of body composition and longevity. Nutrition Reviews 1997; 55(1 Pt 2): S3141, discussion S41–3.CrossRefGoogle ScholarPubMed
31Björntorp, P, Holm, G, Rosmond, R. Hypothalamic arousal, insulin resistance and type 2 diabetes mellitus. Diabetic Medicine 1999; 16: 373–83.CrossRefGoogle ScholarPubMed
32Peschard, A, ed. Nutriología 1995; 2(2 Diciembre) [trimester journal of the National Institute of Nutriology (now National Institute of Medical Sciences and Nutrition Salvador Zubirán), Ministry of Health, Mexico].Google Scholar
33Sánchez-Castillo, CP, Solano, ML, Flores, J, Franklin, MF, Limón, N, Martínez del Cerro, V et al. , Salt intake and blood pressure in rural and metropolitan Mexico. Archives of Medical Research 1996; 27: 559–66.Google Scholar
34Sacks, FM, Svetkey, LP, Vollmer, WM, Appel, LJ, Bray, GA, Harsha, D, et al. Effects on blood pressure of reduced dietary sodium and the dietary approaches to stop hypertension (DASH Diet). New England Journal of Medicine 2001; 344: 310.CrossRefGoogle ScholarPubMed
35Batrouni, KL, Chávez, A. Modernización de la dieta urbana y enfermedades cardiovasculares. Revista de Investigacion Clinica 1986; 38(Suppl.): 21–6.Google Scholar