Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
Pediatric Nephrology
Published in: Pediatric Nephrology 12/2004

01-12-2004 | Original Article

Body mass index in primary and secondary pediatric hypertension

Authors: Renee F. Robinson, Donald L. Batisky, John R. Hayes, Milap C. Nahata, John D. Mahan

Published in: Pediatric Nephrology | Issue 12/2004

Login to get access

Abstract

The objectives of this study were (1) to determine the relationship of body mass index (BMI) to primary or secondary hypertension in children and adolescents and (2) to assess BMI at the age of onset of hypertension in children and adolescents. Patient demographics, BMI, family history, presentation of disease, etiology of hypertension, medication, laboratory data, and findings from other procedures were recorded for all patients with hypertension followed in the Pediatric Nephrology Clinic at Children’s Hospital, Columbus, Ohio, over a 4-year period. In total, 314 patients were studied: 218 with primary hypertension and 96 with secondary hypertension. Our patient population (166 males, 148 females) was diverse in age (13±6.3 years) and ethnicity (237 Caucasians, 54 African-Americans, 23 other). BMI was greater in patients with primary (27.5±9.2 kg/m2) versus secondary (23.9±9.3 kg/m2) hypertension (P =0.002). Children with primary hypertension with an increased BMI presented at an earlier age than children with secondary hypertension and an increased BMI. The age of onset (10.5±2.6 years) in primary hypertension was related to increased BMI ( r =0.12, P =0.001); however, there was no relationship between BMI and age of onset of secondary hypertension (P =0.21). Children whose family members had essential hypertension had increased BMI compared with children without a family history of essential hypertension. Based on the logistic regression model constructed from our data, the likelihood of primary versus secondary hypertension was influenced by the presence of family history of hypertension independent of presence of obesity in the child. In conclusion, increased BMI is more common in children with primary than secondary hypertension; earlier onset of primary hypertension in the pediatric population was associated with increased BMI; the assessment of BMI is important in the evaluation of secondary as well as primary hypertension; the role of obesity in the development of secondary as well as primary hypertension in children merits further study.
Literature
1.
Lande MB, Kaczorowski JM, Auinger P, Schwartz GJ, Weitzman M (2003) Elevated blood pressure and decreased cognitive function among school-age children and adolescents in the United States. J Pediatr 143:720–724CrossRefPubMed
2.
3.
Staessen JA, Wang J, Bianchi G, Birkenhager WH (2003) Essential hypertension. Lancet 361:1629–1641CrossRefPubMed
4.
Keil JE, Tyroler HA, Sandifer SH, Boyle E Jr (1977) Hypertension: effects of social class and racial admixture: the results of a cohort study in the black population of Charleston, South Carolina. Am J Public Health 67:634–639PubMed
5.
Kaplan NM (1989) The deadly quartet. Upper-body obesity, glucose intolerance, hypertriglyceridemia, and hypertension. Arch Intern Med 149:1514–1520CrossRefPubMed
6.
Daniels SR, Heiss G, Davis CE, Hames CG, Tyroler HA (1988) Race and sex differences in the correlates of blood pressure change. Hypertension 11:249–255PubMed
7.
Weinsier RL, Norris DJ, Birch R, Bernstein RS, Wang J, Yang MU, Pierson RN Jr, Van Itallie TB (1985) The relative contribution of body fat and fat pattern to blood pressure level. Hypertension 7:578–585PubMed
8.
Selby JV, Friedman GD, Quesenberry CP Jr (1989) Precursors of essential hypertension. The role of body fat distribution pattern. Am J Epidemiol 129:43–53PubMed
9.
Modan M, Halkin H, Almog S, Lusky A, Eshkol A, Shefi M, Shitrit A, Fuchs Z (1985) Hyperinsulinemia. A link between hypertension obesity and glucose intolerance. J Clin Invest 75:809–817PubMed
10.
Tyroler HA (1989) Socioeconomic status in the epidemiology and treatment of hypertension. Hypertension 13:94–97
11.
Cambien F, Chretien JM, Ducimetiere P, Guize L, Richard JL (1985) Is the relationship between blood pressure and cardiovascular risk dependent on body mass index? Am J Epidemiol 122:434–442PubMed
12.
National High Blood Pressure Education Program Working Group on Hypertension Control in Children and Adolescents (1996) Update on the 1987 Task Force Report on High Blood Pressure in Children and Adolescents: a working group report from the National High Blood Pressure Education Program. Pediatrics 98:649–658PubMed
13.
Kiess W, Bottner A, Bluher S, Raile K, Seidel B, Kapellen T, Keller E, Kratzsch J (2003) Pharmacoeconomics of obesity management in childhood and adolescence. Expert Opin Pharmacother 4:1471–1477CrossRefPubMed
14.
Donahue RP, Prineas RJ, Gomez O, Hong CP (1994) Tracking of elevated systolic blood pressure among lean and overweight adolescents: the Minneapolis Children’s Blood Pressure Study. J Hypertens 12:303–308PubMed
15.
Verma M, Chhatwal J, George SM (1994) Obesity and hypertension in children. Indian Pediatr 31:1065–1069PubMed
16.
Bartosh SM, Aronson AJ (1999) Childhood hypertension. An update on etiology, diagnosis, and treatment. Pediatr Clin North Am 46:235–252
17.
Lauer RM, Clarke WR (1989) Childhood risk factors for high adult blood pressure: the Muscatine Study. Pediatrics 84:633–641PubMed
18.
Barlow SE, Dietz WH, Klish WJ, Trowbridge FL (2002) Medical evaluation of overweight children and adolescents: reports from pediatricians, pediatric nurse practitioners, and registered dietitians. Pediatrics 110:222–228PubMed
19.
Task Force on Blood Pressure Control in Children (1987) Report of the Second Task Force on Blood Pressure Control in Children—1987. Pediatrics 79:1–25PubMed
20.
(1997) NHLBI issues update on task force report on high blood pressure in children and adolescents. Am Fam Physician 55:2340–2342, 2345
21.
Levy D, DeStefano AL, Larson MG, O’Donnell CJ, Lifton RP, Gavras H, Cupples LA, Myers RH (2000) Evidence for a gene influencing blood pressure on chromosome 17. Genome scan linkage results for longitudinal blood pressure phenotypes in subjects from the Framingham heart study. Hypertension 36:477–483PubMed
22.
Rice T, An P, Gagnon J, Leon AS, Skinner JS, Wilmore JH, Bouchard C, Rao DC (2002) Heritability of HR and BP response to exercise training in the HERITAGE Family Study. Med Sci Sports Exerc 34:972–979CrossRefPubMed
23.
DeWan AT, Arnett DK, Atwood LD, Province MA, Lewis CE, Hunt SC, Eckfeldt J (2001) A genome scan for renal function among hypertensives: the HyperGEN study. Am J Hum Genet 68:136–144CrossRefPubMed
24.
Pausova Z, Gossard F, Gaudet D, Tremblay J, Kotchen TA, Cowley AW, Hamet P (2001) Heritability estimates of obesity measures in siblings with and without hypertension. Hypertension 38:41–47PubMed
25.
Felder RA, Sanada H, Xu J, Yu PY, Wang Z, Watanabe H, Asico LD, Wang W, Zheng S, Yamaguchi I, Williams SM, Gainer J, Brown NJ, Hazen-Martin D, Wong LJ, Robillard JE, Carey RM, Eisner GM, Jose PA (2002) G protein-coupled receptor kinase 4 gene variants in human essential hypertension. Proc Natl Acad Sci U S A 99:3872–3877CrossRefPubMed
26.
Cook NR, Gillman MW, Rosner BA, Taylor JO, Hennekens CH (1997) Prediction of young adult blood pressure from childhood blood pressure, height, and weight. J Clin Epidemiol 50:571–579CrossRefPubMed
27.
Culpepper WS 3rd, Sodt PC, Messerli FH, Ruschhaupt DG, Arcilla RA (1983) Cardiac status in juvenile borderline hypertension. Ann Intern Med 98:1–7PubMed
28.
Schieken RM, Clarke WR, Lauer RM (1981) Left ventricular hypertrophy in children with blood pressures in the upper quintile of the distribution. The Muscatine Study. Hypertension 3:669–675PubMed
29.
Zahka KG, Neill CA, Kidd L, Cutilletta MA, Cutilletta AF (1981) Cardiac involvement in adolescent hypertension. Echocardiographic determination of myocardial hypertrophy. Hypertension 3:664–668PubMed
30.
Yetman RJ, Portman RJ (1999) Technical aspects of blood pressure measurement in pediatric patients. Blood Press Monit 4:155–159PubMed
31.
Bundred P, Kitchiner D, Buchan I (2001) Prevalence of overweight and obese children between 1989 and 1998: population based series of cross sectional studies. BMJ 322:326–328CrossRefPubMed
32.
Robinson TN, Chang JY, Haydel KF, Killen JD (2001) Overweight concerns and body dissatisfaction among third-grade children: the impacts of ethnicity and socioeconomic status. J Pediatr 138:181–187CrossRefPubMed
33.
Troiano RP, Flegal KM, Kuczmarski RJ, Campbell SM, Johnson CL (1995) Overweight prevalence and trends for children and adolescents. The National Health and Nutrition Examination Surveys, 1963 to 1991. Arch Pediatr Adolesc Med 149:1085–1091PubMed
34.
Stamler R, Stamler J, Riedlinger WF, Algera G, Roberts RH (1978) Weight and blood pressure. Findings in hypertension screening of 1 million Americans. JAMA 240:1607–1610CrossRefPubMed
35.
Kannel WB, Brand N, Skinner JJ Jr, Dawber TR, McNamara PM (1967) The relation of adiposity to blood pressure and development of hypertension. The Framingham study. Ann Intern Med 67:48–59PubMed
36.
Blair D, Habicht JP, Sims EA, Sylwester D, Abraham S (1984) Evidence for an increased risk for hypertension with centrally located body fat and the effect of race and sex on this risk. Am J Epidemiol 119:526–540PubMed
37.
Court JM, Hill GJ, Dunlop M, Boulton TJ (1974) Hypertension in childhood obesity. Aust Paediatr J 10:296–300PubMed
38.
Sangi H, Mueller WH (1991) Which measure of body fat distribution is best for epidemiologic research among adolescents? Am J Epidemiol 133:870–883PubMed
39.
Krauss RM, Winston M, Fletcher RN, Grundy SM (1998) Obesity: impact of cardiovascular disease. Circulation 98:1472–1476
40.
Lackland DT, Orchard TJ, Keil JE, Saunders DE Jr, Wheeler FC, Adams-Campbell LL, McDonald RH, Knapp RG (1992) Are race differences in the prevalence of hypertension explained by body mass and fat distribution? A survey in a biracial population. Int J Epidemiol 21:236–245PubMed
41.
Lurbe E, Alvarez V, Liao Y, Tacons J, Cooper R, Cremades B, Torro I, Redon J (1998) The impact of obesity and body fat distribution on ambulatory blood pressure in children and adolescents. Am J Hypertens 11:418–424CrossRefPubMed
42.
Bellizzi MC, Dietz WH (1999) Workshop on childhood obesity: summary of the discussion. Am J Clin Nutr 70:173S–175S
43.
Kimm SY, Barton BA, Obarzanek E, McMahon RP, Sabry ZI, Waclawiw MA, Schreiber GB, Morrison JA, Similo S, Daniels SR (2001) Racial divergence in adiposity during adolescence: The NHLBI Growth and Health Study. Pediatrics 107:E34CrossRefPubMed
44.
Ferdinand KC (2000) Treating the African American with hypertension: does race really matter? South Med J 93:541–544PubMed
45.
Johnson MS, Figueroa-Colon R, Herd SL, Fields DA, Sun M, Hunter GR, Goran MI (2000) Aerobic fitness, not energy expenditure, influences subsequent increase in adiposity in black and white children. Pediatrics 106:E50CrossRefPubMed
46.
Goran MI (2001) Metabolic precursors and effects of obesity in children: a decade of progress, 1990–1999. Am J Clin Nutr 73:158–171PubMed
47.
Krauss RM, Winston M, Fletcher BJ, Grundy SM (1998) Obesity: impact on cardiovascular disease. Circulation 98:1472–1476
48.
Shea S, Basch CE, Gutin B, Stein AD, Contento IR, Irigoyen M, Zybert P (1994) The rate of increase in blood pressure in children 5 years of age is related to changes in aerobic fitness and body mass index. Pediatrics 94:465–470PubMed
Metadata
Title
Body mass index in primary and secondary pediatric hypertension
Authors
Renee F. Robinson
Donald L. Batisky
John R. Hayes
Milap C. Nahata
John D. Mahan
Publication date
01-12-2004
Publisher
Springer-Verlag
Published in
Pediatric Nephrology / Issue 12/2004
Print ISSN: 0931-041X
Electronic ISSN: 1432-198X
DOI
https://doi.org/10.1007/s00467-004-1588-8

Other articles of this Issue 12/2004

Pediatric Nephrology 12/2004 Go to the issue

Original Article

Long-term effects of levamisole treatment in childhood nephrotic syndrome

Review

Catheter-related infections in children treated with hemodialysis

Original Article

No evidence for genotype/phenotype correlation in NPHS1 and NPHS2 mutations

Brief Report

Diffuse xanthogranulomatous pyelonephritis in a child with severe complications

Abstracts

Annual Meeting of the Société de Néphrologie Pédiatrique, 5 - 7 February 2004, Les Diablerets, Suisse

Review

Immunization in children with chronic renal failure: a practical approach