【 摘 要 】

Background

Intakes of high sugar-sweetened beverages (SSBs) in adults can escalate risk of metabolic syndrome (MetS); however, data of longitudinal studies in children and adolescents are lacking. In this study we assessed consumption of SSBs in relation to incidence of MetS among children and adolescents during a 3.6 year follow-up.

Methods

This study was a population-based longitudinal study, in which 424 subjects, aged 6–18 years, from the Tehran Lipid and Glucose Study with complete data on dietary intake, blood pressure, anthropometry, and biochemical indices were followed for 3.6 years. Dietary intake was collected using a valid and reliable food frequency questionnaire. MetS was defined according to the Cook criteria. Sugar sweetened beverages included all kinds of sugar sweetened carbonated soft drinks (SSSDs) and fruit juice drinks.

Results

Average daily intakes of SSSD and fruit juice drinks were 38.5 ± 75.0 and 32.3 ± 60.1 g, respectively. After adjustment for confounders, compared to the first quartile, the odds ratio of incident MetS in the highest quartile of SSB and SSSD was 3.20 (95 % CI: 1.06–9.90) and 3.01 (95 % CI: 1.17–7.74), respectively. Regarding incidence of MetS components, compared with the lowest quartile, the highest quartile of SSSDs showed odds ratios of 2.49 (95 % CI: 1.00–6.53) for abdominal obesity and 2.79 (95 % CI: 1.02–7.64) for hypertension. No significant association was found between consumption of fruit juice drink and SSSD with other components of MetS.

Conclusions

Children and adolescents with high intakes of carbonated beverages could be at increased risk of MetS, abdominal obesity, and hypertension.

【 授权许可】

   
2015 Mirmiran et al.

【 预 览 】

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【 参考文献 】

• [1]Friend A, Craig L, Turner S: The prevalence of metabolic syndrome in children: a systematic review of the literature. Metab Syndr Relat Disord 2013, 11:71-80.
• [2]Morrison JA, Friedman LA, Wang P, Glueck CJ: Metabolic syndrome in childhood predicts adult metabolic syndrome and type 2 diabetes mellitus 25 to 30 years later. J Pediatr 2008, 152:201-6.
• [3]Morrison JA, Friedman LA, Gray-McGuire C: Metabolic syndrome in childhood predicts adult cardiovascular disease 25 years later: the Princeton Lipid Research Clinics Follow-up Study. Pediatrics 2007, 120:340-5.
• [4]Lusis AJ, Attie AD, Reue K: Metabolic syndrome: from epidemiology to systems biology. Nat Rev Genet 2008, 9:819-30.
• [5]Yudkin JS: Insulin resistance and the metabolic syndrome--or the pitfalls of epidemiology. Diabetologia 2007, 50:1576-86.
• [6]Weiss R, Bremer AA, Lustig RH: What is metabolic syndrome, and why are children getting it? Ann N Y Acad Sci 2013, 1281:123-40.
• [7]Harrington S: The role of sugar-sweetened beverage consumption in adolescent obesity: a review of the literature. J Sch Nurs 2008, 24:3-12.
• [8]Overby NC, Lillegaard IT, Johansson L, Andersen LF: High intake of added sugar among Norwegian children and adolescents. Public Health Nutr 2004, 7:285-93.
• [9]Reedy J, Krebs-Smith SM: Dietary sources of energy, solid fats, and added sugars among children and adolescents in the United States. J Am Diet Assoc 2010, 110:1477-84.
• [10]Malik VS, Popkin BM, Bray GA, Despres JP, Hu FB: Sugar-sweetened beverages, obesity, type 2 diabetes mellitus, and cardiovascular disease risk. Circulation 2010, 121:1356-64.
• [11]Malik VS, Pan A, Willett WC, Hu FB: Sugar-sweetened beverages and weight gain in children and adults: a systematic review and meta-analysis. Am J Clin Nutr 2013, 98:1084-102.
• [12]Althuis MD, Weed DL: Evidence mapping: methodologic foundations and application to intervention and observational research on sugar-sweetened beverages and health outcomes. Am J Clin Nutr 2013, 98:755-68.
• [13]Chan TF, Lin WT, Huang HL, Lee CY, Wu PW, Chiu YW, et al.: Consumption of sugar-sweetened beverages is associated with components of the metabolic syndrome in adolescents. Nutrients 2014, 6:2088-103.
• [14]Azizi F, Ghanbarian A, Momenan AA, Hadaegh F, Mirmiran P, Hedayati M, et al.: Prevention of non-communicable disease in a population in nutrition transition: Tehran Lipid and Glucose Study phase II. Trials 2009, 10:5. BioMed Central Full Text
• [15]Asghari G, Mirmiran P, Rashidkhani B, Asghari-Jafarabadi M, Mehran M, Azizi F: The association between diet quality indices and obesity: Tehran Lipid and Glucose Study. Arch Iran Med 2012, 15:599-605.
• [16]Mirmiran P, Esfahani FH, Mehrabi Y, Hedayati M, Azizi F: Reliability and relative validity of an FFQ for nutrients in the Tehran lipid and glucose study. Public Health Nutr 2010, 13:654-62.
• [17]Esfahani FH, Asghari G, Mirmiran P, Azizi F: Reproducibility and relative validity of food group intake in a food frequency questionnaire developed for the Tehran Lipid and Glucose Study. J Epidemiol 2010, 20:150-8.
• [18]Asghari G, Rezazadeh A, Hosseini-Esfahani F, Mehrabi Y, Mirmiran P, Azizi F: Reliability, comparative validity and stability of dietary patterns derived from an FFQ in the Tehran Lipid and Glucose Study. Br J Nutr 2012, 108:1109-17.
• [19]Ghaffarpour M, Houshiar-Rad A, Kianfar H: The manual for household measures, cooking yields factors and edible portion of food. Keshaverzi press, Tehran; 1999.
• [20]Kriska AM, Edelstein SL, Hamman RF, Otto A, Bray GA, Mayer-Davis EJ, et al.: Physical activity in individuals at risk for diabetes: Diabetes Prevention Program. Med Sci Sports Exerc 2006, 38:826-32.
• [21]Delshad M, Ghanbarian A, Ghaleh NR, Amirshekari G, Askari S, Azizi F: Reliability and validity of the modifiable activity questionnaire for an Iranian urban adolescent population. Int J Prev Med 2015, 6:3.
• [22]Cook S, Weitzman M, Auinger P, Nguyen M, Dietz WH: Prevalence of a metabolic syndrome phenotype in adolescents: findings from the third National Health and Nutrition Examination Survey, 1988–1994. Arch Pediatr Adolesc Med 2003, 157:821-7.
• [23]Kelishadi R, Gouya MM, Ardalan G, Hosseini M, Motaghian M, Delavari A, et al.: First reference curves of waist and hip circumferences in an Asian population of youths: CASPIAN study. J Trop Pediatr 2007, 53:158-64.
• [24]National High Blood Pressure Education Program Working Group on High Blood Pressure in Children and adolescent: The fourth report on the diagnosis, evaluation, and treatment of high blood pressure in children and adolescents Pediatrics 2004, 114:555-576.
• [25]Genuth S, Alberti KG, Bennett P, Buse J, Defronzo R, Kahn R, et al.: Follow-up report on the diagnosis of diabetes mellitus. Diabetes Care 2003, 26:3160-7.
• [26]Alberti KG, Eckel RH, Grundy SM, Zimmet PZ, Cleeman JI, Donato KA, et al.: Harmonizing the metabolic syndrome: a joint interim statement of the International Diabetes Federation Task Force on Epidemiology and Prevention; National Heart, Lung, and Blood Institute; American Heart Association; World Heart Federation; International Atherosclerosis Society; and International Association for the Study of Obesity. Circulation 2009, 120:1640-5.
• [27]Delavari A, Forouzanfar MH, Alikhani S, Sharifian A, Kelishadi R: First nationwide study of the prevalence of the metabolic syndrome and optimal cutoff points of waist circumference in the Middle East: the national survey of risk factors for noncommunicable diseases of Iran. Diabetes Care 2009, 32:1092-7.
• [28]Barrio-Lopez MT, Martinez-Gonzalez MA, Fernandez-Montero A, Beunza JJ, Zazpe I, Bes-Rastrollo M: Prospective study of changes in sugar-sweetened beverage consumption and the incidence of the metabolic syndrome and its components: the SUN cohort. Br J Nutr 2013, 110:1722-31.
• [29]Dhingra R, Sullivan L, Jacques PF, Wang TJ, Fox CS, Meigs JB, et al.: Soft drink consumption and risk of developing cardiometabolic risk factors and the metabolic syndrome in middle-aged adults in the community. Circulation 2007, 116:480-8.
• [30]Wang JW, Mark S, Henderson M, O’Loughlin J, Tremblay A, Wortman J, et al.: Adiposity and glucose intolerance exacerbate components of metabolic syndrome in children consuming sugar-sweetened beverages: QUALITY cohort study. Pediatr Obes 2013, 8:284-93.
• [31]Bremer AA, Auinger P, Byrd RS: Relationship between insulin resistance-associated metabolic parameters and anthropometric measurements with sugar-sweetened beverage intake and physical activity levels in US adolescents: findings from the 1999–2004 National Health and Nutrition Examination Survey. Arch Pediatr Adolesc Med 2009, 163:328-335.
• [32]Ambrosini GL, Oddy WH, Huang RC, Mori TA, Beilin LJ, Jebb SA: Prospective associations between sugar-sweetened beverage intakes and cardiometabolic risk factors in adolescents. Am J Clin Nutr 2013, 98:327-34.
• [33]Shang L, O’Loughlin J, Tremblay A, Gray-Donald K: The association between food patterns and adiposity among Canadian children at risk of overweight. Appl Physiol Nutr Metab 2014, 39:195-201.
• [34]Clifton PM, Chan L, Moss CL, Miller MD, Cobiac L: Beverage intake and obesity in Australian children. Nutr Metab (Lond) 2011, 8:87. BioMed Central Full Text
• [35]Bray GA, Popkin BM: Dietary sugar and body weight: have we reached a crisis in the epidemic of obesity and diabetes?: health be damned! Pour on the sugar. Diabetes Care 2014, 37:950-6.
• [36]Wang J: Consumption of added sugars and development of metabolic syndrome components among a sample of youth at risk of obesity. Appl Physiol Nutr Metab 2014, 39:512.
• [37]Dominguez Coello S, Cabrera De Leon A, Rodriguez Perez MC, Borges Alamo C, Carrillo Fernandez L, Almeida Gonzalez D, et al.: Association between glycemic index, glycemic load, and fructose with insulin resistance: the CDC of the Canary Islands study. Eur J Nutr 2010, 49:505-512.
• [38]Goletzke J, Buyken AE, Joslowski G, Bolzenius K, Remer T, Carstensen M, et al.: Increased intake of carbohydrates from sources with a higher glycemic index and lower consumption of whole grains during puberty are prospectively associated with higher IL-6 concentrations in younger adulthood among healthy individuals. J Nutr 2014, 144:1586-93.
• [39]Kelishadi R, Mansourian M, Heidari-Beni M: Association of fructose consumption and components of metabolic syndrome in human studies: a systematic review and meta-analysis. Nutrition 2014, 30:503-10.
• [40]Stanhope KL, Schwarz JM, Havel PJ: Adverse metabolic effects of dietary fructose: results from the recent epidemiological, clinical, and mechanistic studies. Curr Opin Lipidol 2013, 24:198-206.
• [41]Hosseini-Esfahani F, Bahadoran Z, Mirmiran P, Hosseinpour-Niazi S, Hosseinpanah F, Azizi F: Dietary fructose and risk of metabolic syndrome in adults: Tehran Lipid and Glucose study. Nutr Metab (Lond) 2011, 8:50. BioMed Central Full Text
• [42]Basciano H, Federico L, Adeli K: Fructose, insulin resistance, and metabolic dyslipidemia. Nutr Metab (Lond) 2005, 2:5. BioMed Central Full Text
• [43]Bobridge KS, Haines GL, Mori TA, Beilin LJ, Oddy WH, Sherriff J, et al.: Dietary fructose in relation to blood pressure and serum uric acid in adolescent boys and girls. J Hum Hypertens 2013, 27:217-24.
• [44]Eck LH, Klesges RC, Hanson CL, Slawson D, Portis L, Lavasque ME: Measuring short-term dietary intake: development and testing of a 1-week food frequency questionnaire. J Am Diet Assoc 1991, 91:940-5.
• [45]Blom L, Lundmark K, Dahlquist G, Persson LA: Estimating children’s eating habits. Validity of a questionnaire measuring food frequency compared to a 7-day record. Acta Paediatr Scand 1989, 78:858-864.
• [46]Frank GC, Nicklas TA, Webber LS, Major C, Miller JF, Berenson GS: A food frequency questionnaire for adolescents: defining eating patterns. J Am Diet Assoc 1992, 92:313-8.