Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-28T01:30:08.207Z Has data issue: false hasContentIssue false
  • English
  • Français

Nutritional status and food consumption in 10–11 year old Dutch boys (Dutch Nutrition Surveillance System)

Published online by Cambridge University Press:  09 March 2007

Geert Van Poppel ,
Petra Schneijder ,
Michiel R. H. Löwik ,
Jaap Schrijver  and
Frans J. Kok
Geert Van Poppel
Affiliation:
TNO Toxicology and Nutrition Institute, PO Box 360, 3700 AJ Zeist, The Netherlands
Petra Schneijder
Affiliation:
TNO Toxicology and Nutrition Institute, PO Box 360, 3700 AJ Zeist, The Netherlands
Michiel R. H. Löwik
Affiliation:
TNO Toxicology and Nutrition Institute, PO Box 360, 3700 AJ Zeist, The Netherlands
Jaap Schrijver
Affiliation:
TNO Toxicology and Nutrition Institute, PO Box 360, 3700 AJ Zeist, The Netherlands
Frans J. Kok
Affiliation:
TNO Toxicology and Nutrition Institute, PO Box 360, 3700 AJ Zeist, The Netherlands
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

As part of the Dutch Nutrition Surveillance System, cardiovascular risk factors and food consumption (24 h recall) as well as haematological, Fe and vitamin status (A, B6, C) were assessed in 126 Dutch boys aged 10–11 years (response 71 %). Body mass index (BMI) and the sum of four skinfolds were strongly associated (r 0.85, P < 0.01) and 8% of the boys were overweight (BMI > 20.1 kg/m2). Elevated serum total cholesterol levels (> 4.4 mmol/l) were observed in 38 %; total cholesterol and low-density-lipoprotein-cholesterol levels were strongly associated (r 0.88, P < 0.001). Intake of fat was high (38 % of energy) and too much fat was saturated (polyunsaturated: saturated 0.44, guideline: 0.5–1.0), whereas intake of carbohydrate (49% of energy) and dietary fibre was low. About 12% of the boys had insufficient Fe stores (plasma ferritin < 12.0 μg/l) and the mean Fe intake (9.0 mg/d) was below recommended daily allowance (10.0 mg/d). Plasma ferritin was, however, not associated with haematological indices and no frank anaemias were observed. No marginal values were observed for vitamins A, B6 and C status. In conclusion, the main nutritional risks in boys aged 10–11 years are cardiovascular risk factors and Fe nutrition.

Keywords

Nutrition surveillanceChildrenCholesterolVitamins Iron
Type
Nutritional Surveillance
Information
British Journal of Nutrition , Volume 66 , Issue 2 , September 1991 , pp. 161 - 169
Copyright
Copyright © The Nutrition Society 1991

References

REFERENCES

Arab, L., Schellenberg, B. & Schlierf, G. (1982). Nutrition and health, a survey of young men and women in Heidelberg. Annals of Nutrition and Metabolism 26, Suppl. 1, 1244.Google ScholarPubMed
Baranowski, T., Dworkin, R., Henske, J. C., Clearman, D. R., Dunn, J. K., Nader, P. R. & Hooks, P. C. (1986). The accuracy of children's self-reports of diet: Family Health Project. Journal of the American Dietetic Association 86, 13811385.CrossRefGoogle ScholarPubMed
Bingham, S. A., Nelson, M., Paul, A. A., Haraldsdottir, J., Bjørg Løken, E. & Van Staveren, W. A. (1988). Methods for data collection at an individual level. In: Manual on Methodology for Food Consumption Studies. pp. 53106. [Cameron, M. E. and Van Staveren, W. A., editors]. New York: Oxford University Press.Google Scholar
BMDP (1983). BMDP Statistical Software Manual. Berkeley: University of California Press.Google Scholar
Chabner, B. & Livingstone, D. (1970). A simple enzymic assay for pyridoxal phosphate. Analytical Biochemistry 30, 413423.CrossRefGoogle Scholar
Christakis, G. (1973). Nutritional assessment in health programs. American Journal of Public Health 63, Suppl. VIII, Appendix B. 182.Google ScholarPubMed
Cook, J. D. & Finch, C. A. (1979). Assessing the iron status of a population. American Journal of Clinical Nutrition 32, 21152119.CrossRefGoogle ScholarPubMed
Cresenta, J. L., Srinivasan, S. R., Foster, T. A., Webber, L. S. & Berenson, J. S. (1982). Serum lipoprotein levels in children; epidemiologic and clinical implications. Journal of Chronic Diseases 35, 4151.CrossRefGoogle Scholar
Dacie, J. V. & Lewis, S. M. (1984). Practical Haematology, 6th ed. London: Churchill Livingstone.Google Scholar
Dalman, P. R., Siimes, M. A. & Stekel, A. (1980). Iron deficiency in infancy and childhood. American Journal of Clinical Nutrition 38, 86118.CrossRefGoogle Scholar
De Wit, J. M., Van't Hof, M. A. & Roede, M. J. (1984). Reference curves for biceps, triceps, subscapular and suprailiac skinfolds in Dutch children from 7–14 years. Growth 48, 370384.Google Scholar
Expert Scientific Working Group (1985). Summary of a report on assessment of the iron nutritional status of the United States population. American Journal of Clinical Nutrition 42, 13181330.CrossRefGoogle Scholar
Fankel, R. (1978). Eine rasche Methode zur Bestimmung von Retinol in Blutserum (A rapid method for determination of retinol in serum). Microchimica Acta 1, 359361.Google Scholar
Fuhr, J. (1965). Eisenbestimmung und Bestimmung der Eisenbindungskapazität im Serum ohne Eiweissfällung. (Determination of iron and iron-binding capacity in serum without protein precipitation). Medizinische Monatschrift 19, 282290.Google Scholar
Garn, S. M. (1986). Family line and socio-economic factors in fatness and obesity. Nutrition Reviews 44, 381385.CrossRefGoogle Scholar
Garrow, J. S. (1981). Treat Obesity Seriously; a Clinical Manual. Edinburgh: Churchill Livingstone.Google Scholar
Knuiman, J. T. & Katan, M. B. (1985). Cholesterolniveaus in serum in Nederland in vergelijking met die in de Verenigde Staten (Serum cholesterol levels in the Netherlands as compared with those in the United States). Nederlands Tijdschrift voor Geneeskunde 129, 25002505.Google ScholarPubMed
Kromhout, D., Obermann-de Boer, G. L. & de Lezenne-Coulander, C. (1981). Major CHD risk indicators in Dutch schoolchildren aged 10–14 years. The Zutphen schoolchildren study. Preventive Medicine 10, 195210.CrossRefGoogle ScholarPubMed
Laboratory Methods Committee of the Lipid Research Clinics Program of the National Heart, Lung and Blood Institute Bethesda (1977). Cholesterol and triglyceride concentrations in serum/plasma pairs. Clinical Chemistry 23, 6063.CrossRefGoogle Scholar
Lipid Research Clinics (1979). Population studies data book – volume I. The prevalence study. US Department of Health, Education and Welfare. National Institutes of Health NIH-publication no. 79–1527. Bethesda: NIH.Google Scholar
Löwik, M. R. H., Westenbrink, S., Meulmeester, J. F., Van den Berg, H., Hulshof, K. F. A. M., Kistemaker, C., Odink, J., De Rover, C. M., Schrijver, J. & Wedel, M. (1987). Onderzoek naar de voeding en voedingstoestand van zelfstandig wonende mensen van 65 tot 80 jaar. (Study on food consumption and nutritional status of independently-living elderly aged 65–80 years). Voeding 48, 177191.Google Scholar
Löwik, M. R. H. & Hermus, R. J. J. (1988). The Dutch Nutrition Surveillance System. Food Policy 13, 359365.CrossRefGoogle Scholar
Miles, L. E. M., Lipschitz, D. A., Bieber, C. P. & Cook, J. D. (1974). Measurement of serum ferritin by 2-site immunoradiometric assay. Analytical Biochemistry 61, 209224.CrossRefGoogle ScholarPubMed
National Institutes of Health Consensus Development (1985). Conference statement, lowering blood cholesterol to prevent heart disease. Journal of the American Medical Association 253, 20802086.CrossRefGoogle Scholar
Nevo Table (1986). Nederlands voedingsstoffenbestand (Dutch Food Composition Table), 19861987. 's Gravenhage: Voorlichtingsbureau voor de Voeding.Google Scholar
O'Neal, R. M., Johnson, O. C. & Schaefer, A. E. (1970). Guidelines for classification and interpretation of group blood and urine data collected as part of the National Nutrition Survey. Pediatric Research 4, 103106.CrossRefGoogle ScholarPubMed
Parizkova, J. & Roth, Z. (1972). The assessment of depot fat in children from skinfold thickness measurements by Holtain (Tanner/Whitehouse) caliper. Human Biology 44, 613620.Google Scholar
Report of the Second Task Force on Blood Pressure Control in Children-1987. (1987). Pediatrics 79, 125.Google Scholar
Richtlijnen Goede Voeding. (1986). Een advies van de Voedingsraad. (Guidelines for a healthy diet, advice of the Dutch Nutrition Council). Voeding 47, 159181.Google Scholar
Rolland-Cachera, M. F., Sempé, M., Guilloud-Bataille, M., Patois, E., Pequignot-Guggenbuhl, F. & Fautrad, V. (1982). Adiposity indices in children. American Journal of Clinical Nutrition 36, 178184.CrossRefGoogle ScholarPubMed
Sauberlich, H. E., Canman, J. E., Baker, E. M., Raica, N. & Herman, Y. F. (1970). Biochemical assessment of the nutritional status of vitamin B6 in the human. American Journal of Clinical Nutrition 23, 629642.Google Scholar
Sauberlich, H. E., Skala, J. H. & Dowdy, R. P. (1976). Laboratory Tests for the Assessment of Nutritional Status. Cleveland, Ohio: CRC Press.Google Scholar
Schrijver, J., Speek, A. J., Klosse, J. A. & Schreurs, W. H. P. (1982). A reliable semiautomated method for the determination of total thiamin in whole blood by the thiochrome method with high-performance liquid chromatography. Annals of Clinical Biochemistry 19, 5256.CrossRefGoogle ScholarPubMed
Schrijver, J., Van Veelen, B. W. C. & Schreurs, W. H. P. (1985). Biochemical evaluation of the vitamin and iron status of an apparently healthy Dutch free living elderly population. Comparison with younger adults. International Journal for Vitamin and Nutrition Research 55, 337349.Google ScholarPubMed
Speek, A. J., Schrijver, J. & Schreurs, W. H. P. (1984). Fluorimetric determination of total vitamin C in whole blood by high performance liquid chromatography with pre-column derivatization. Journal of Chromatography 305, 5360.Google Scholar
Speek, A. J., Temalilwa, C. R. & Schrijver, J. (1986). Determination of β-carotene and vitamin A activity of vegetables by high performance liquid chromatography and spectrophotometry. Food Chemistry 19, 6574.CrossRefGoogle Scholar
Stanulovic, M., Miletic, D. & Stock, S. (1967). The diagnosis of pyridoxine deficiency based on the estimation of the erythrocyte aspartate aminotransferase and its stimulation by pyridoxal-5'-phosphate. Clinica Chimica Acta 17, 353362.Google ScholarPubMed
Van de Haar, F. & Kromhout, D. (1978). Food intake, nutritional anthropometry and blood chemical parameters in 3 selected Dutch schoolchildren populations. PhD Thesis, Mededelingen Landbouwhogeschool Wageningen 78–9.Google Scholar
Voedingsraad, (1989). Nederlandse Voedingsnormen 1989. (Dutch Nutrition Council: Dutch Recommended Daily Allowances). 's Gravenhage: Voorlichtingsbureau voor de Voeding.Google Scholar
World Health Organization (1972). Nutritional anemias, Report of a WHO group of experts. WHO Technical Report Series no. 503. Geneva: WHO.Google Scholar
World Health Organization (1982). Control of vitamin A deficiency and xerophthalmia. Report of a joint WHO/UNICEF/USAID/Hellen Keller International/IVACG Meeting. WHO Technical Report Series no. 672, Geneva: WHO.Google Scholar