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Nutritional status of schoolchildren in rural Iran

Published online by Cambridge University Press:  08 March 2007

Zahra Sarraf
Affiliation:
Shiraz University of Medical Sciences, Shiraz, Iran
Dena Goldberg
Affiliation:
University of Wyoming, Laramie, WY, USA
Mohammad Shahbazi*
Affiliation:
Jackson State University, School of Public Health, Jackson, MS, USA
Kristen Arbuckle
Affiliation:
Tulane School of Public Health and Tropical Medicine, New Orleans, LA, USA
Moosa Salehi
Affiliation:
Shiraz University of Medical Sciences, Shiraz, Iran
*
*Corresponding author: Dr Mohammad Shahbazi, fax +1 601 368 2081, email [email protected]
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Abstract

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The present study compared the nutritional status of schoolchildren from recently settled, ethnic minority tribespeople with those from a Persian village in southern Iran. Height and weight were measured and blood was collected from school children at three time points over 1·5 years. Supplemental Fe was provided to children with low Hb after the first screening. Twenty-one per cent of the children were wasted, 57 % were stunted and 23 % were anaemic. No statistically significant difference in the prevalence of wasting, stunting and anaemia was found between gender or ethnic groups. Children over the age of 12 years had a higher prevalence of wasting than children aged below 12 years. In a sub-sample of forty-one children the average BMI-for-age decreased. Fe supplementation increased Hb levels to normal in most children, but did not increase Fe level in a few children. Dietary deficiency of micronutrients, especially Zn and Fe, probably accounts for the high prevalence of stunting and anaemia in these children. Infection with Helicobacter pylori is another possible explanation for the Fe-deficiency anaemia. Further investigation is in progress to determine the cause(s) of the observed deficiencies.

Type
Research Article
Copyright
Copyright © The Nutrition Society 2005

References

Abalkhail, B & Shawky, S (2002) Prevalence daily breakfast intake, iron deficiency anemia and awareness of being anaemic among Saudi school students. Int J Food Sci Nutr 53, 519528.Google Scholar
American Academy of Pediatrics Committee on Nutrition (1998) Cholesterol in childhood. Pediatrics 101, 141147.Google Scholar
Annibale, B, Capurso, G & Delle Fave, G (2002) Consequences of Helicobacter pylori infection on the absorption of micronutrients. Dig Liver Dis 34, Suppl. 2, S72S77.CrossRefGoogle ScholarPubMed
Azizi, F, Allahverdian, S, Mirmiran, P, Rahmani, M & Homammadi, F, (2001 a) Dietary factors and body mass index in a group of Iranian adolescents: Tehran lipid and glucose study-2. Int J Vitam Nutr Res 71, 123127.CrossRefGoogle Scholar
Azizi, F, Rahmani, M, Madjid, M, Allahverdian, S, Ghanbili, J, Ghanbarian, A & Hajipour, R (2001 b) Serum lipid levels in an Iranian population of children and adolescents: Tehran lipid and glucose study. Eur J Epidemiol 17, 281288.CrossRefGoogle Scholar
Bwibo, NO & Neumann, CG (2003) The need for animal source foods by Kenyan children. J Nutr 133, Suppl.. 3936S3940S.Google Scholar
Centers for Disease Control and Prevention (1998) Recommendations to prevent and control iron deficiency in the United States. MMWR 47, 128.Google Scholar
Choe, YH, Kim, SK & Hong, YC (2003) The relationship between Helicobacter pylori infection and iron deficiency: sero-prevalence study in 937 pubescent children. Arch Dis Child 88, 178.CrossRefGoogle Scholar
CIA (2003) Iran. The World Factbook.http://www.cia.gov/cia/publications/factbook/geos/ir.htmlGoogle Scholar
Dickey, W (2002) Iron deficiency, gastric atrophy and Helicobactor pylori. Dig Liver Dis 34, 313315.CrossRefGoogle Scholar
Gibson, RS, Yeudali, F, Drost, N, Mtitimuni, BM & Cullinan, TR (2003) Experience of a community based dietary intervention to enhance micronutrient adequacy of diets in animal source foods and high in phytates: a case study in rural Malawian children. J Nutr 133, Suppl.. 3992S3999S.Google Scholar
Grillenberger, M, Neumann, CG, Murphy, SP, Bwibo, NO, van't Veer, P, Hautvast, JG & West, CE (2003) Food supplements have a positive impact weight gain and the addition of animal source foods increases lean body mass of Kenyan schoolchildren. J Nutr 133 Suppl., 3957S3964S.Google Scholar
Haghshenass, M, Mahloudji, M, Reinhold, JG & Mohammad, N (1972) Iron-deficiency anaemia in an Iranian population associated with high intakes of iron. Am J Clin Nutr 25, 11431146.CrossRefGoogle Scholar
Kadivar, MR, Yarmohammadi, H, Mirahmadizadeh, AR, Vakili, M & Karimi, M (2003) Prevalence of iron deficiency anemia in 6 months to 5 years old children in Fars, Southern Iran. Med Sci Monit 9, CR100CR104.Google Scholar
Karimi, M, Kadivar, R & Yarmohammadi, H (2002) Assessment of the prevalence of iron deficiency anemia by serum ferritin in pregnant women in southern Iran. Med Sci Monit 8, CR488CR492.Google ScholarPubMed
Keshavarz, H & Sarraf, Z (1997) Qashqa'i tribeswomen and their health. Rev Epidemiol Sante Publique 45, 279285.Google Scholar
Mahmoodi, MR & Kimiagar, SM (2001) Prevalence of zinc deficiency in junior high school students of Tehran City. Biol Trace Elem Res 81, 93103.Google Scholar
Mikaeli, J, Malekzadeh, R, Ziad Alizadeh, B, Nasseri, S, Mogaddam, , Valizadeh, M, Khoncheh, R & Massarrat, S (2003) Prevalence of Helicobacter pylori in two Iranian provinces with high and low incidence of gastric carcinoma. Tehran, Iran: Digestive Diseases Research Center, Tehran University of Medical Sciences.Google Scholar
Ministry of Health and Medical Education (1998) The Nutritional Status of Children October–November. Tehran: Ministry of Health and Medical Education.Google Scholar
Murphy, SP & Allen, LH (2003) Nutritional importance of animal source foods. J Nutr 133, Suppl., 3932S3935S.CrossRefGoogle ScholarPubMed
Nahon, S, Lahmek, P, Massard, J, Lesgourgues, B, Mariaud de Serre, N, Traissac, L, Bodiguel, V, Adotti, F & Delas, N (2003) Helicobacter pylori -associated chronic gastritis and unexplained iron deficiency anemia: a reliable association? Helicobacter 8, 573577.CrossRefGoogle ScholarPubMed
Neumann, CG, Bwibo, NO, Murphy, SP, Sigman, M, Whaley, S, Allen, LH, Guthrie, D, Weiss, RE & Demment, MW, (2003) Animal source foods improve dietary quality, micronutrient status, growth and cognitive function in Kenyan school children: background, study design and baseline findings. J Nutr 133, Suppl., 3941S3949S.CrossRefGoogle ScholarPubMed
Parkinson, AJ, Gold, BD, Bulkow, L, Wainwright, RB, Swaminathan, B, Khanna, B, Petersen, KM & Fitzgerald, MA (2000) High prevalence of Helicobacter pylori in the Alaska native population and association with low serum ferritin levels in young adults. Clin Diagn Lab Immunol 7, 885888.Google Scholar
Pavithran, K, Arjun, R, Aruna, R & Thomas, M (2003) Refractory iron deficiency anemia – is Helicobacter pylori the culprit? MedGenMed 5, 32.Google Scholar
PDRhealth (2004) Zinc. http://pdrhealth.com/drug_info/nmdrugprofiles/nutsupdrugs/zin_0281.shtml.Google Scholar
Petersen, KM, Parkinson, AJ, Nobmann, ED, Bulkow, L, Yip, R & Mokdad, A (1996) Iron deficiency anemia among Alaska natives may be due to fecal loss rather than inadequate intake. J Nutr 126, 27742783.Google Scholar
Rivera, JA, Hotz, C, Gonzalez-Cossio, T, Neufeld, L & Garcia-Guerra, A (2003) The effect of micronutrient deficiencies on child growth: a review of results from community-based supplementation trials. J Nutr 133 Suppl., 4010S4020S.Google Scholar
Salehi, M, Kimiagar, SM, Shahbazi, M, Mehrabi, Y & Kolahi, AA (2004) Assessing the impact of nutrition education on growth indices of Iranian nomadic children: an application of a modified beliefs, attitudes, subjective-norms and enabling-factors model. Br J Nutr 91, 779787.Google Scholar
Sandstead, HH (1991) Zinc deficiency. A public health problem? Am J Dis Child 145, 853859.Google Scholar
Sandstead, HH (1998) Zinc deficiency and development. http://www.iza.c/omzhe_org/Articles/Art-02.htmGoogle Scholar
Seo, JK, Ko, JS & Choi, KD (2002) Serum ferritin and Helicobacter pylori infection in children: a sero-epidemiologic study in Korea. J Gastroenterol Hepatol 17, 754757.Google Scholar
Stoltzfus, RJ, Chway, HM, Montresor, A, Tielsch, JM, Jape, JK, Albonico, M & Savioli, L (2003) Low dose daily iron supplementation improves iron status and appetite but not anemia, whereas quarterly anthelminthic treatment improves growth, appetite and anemia in Zanzibari preschool children. J Nutr 134, 348356.Google Scholar
Whaley, SE, Sigman, M, Neumann, C, Bwibo, N, Guthrie, D, Weiss, RE, Alber, S & Murphy, SP (2003) The impact of dietary intervention on the cognitive development of Kenyan school children. J Nutr 133, Suppl., 3965S3971S.Google Scholar
World Health Organization Regional Office for the Eastern Mediterranean (2001) Half of children and women in eastern Mediterranean region are anaemic. http://www.emro.who.int/NFS/Flour FortificationPressRelease1306.htmGoogle Scholar
Yakoob, J, Jafri, W & Abid, S (2003) Helicobacter pylori infection and micronutrient deficiencies. World J Gastroenterol 9, 21372139.Google Scholar
Yip, R, Limburg, PJ, Ahlquist, DA et al. ,. (1997) Pervasive occult gastrointestinal bleeding in an Alaska native population with prevalent iron deficiency. Role of Helicobacter pylori gastritis. JAMA 277, 11351139.Google Scholar
Zohouri, FV & Rugg-Gunn, AJ (2002) Sources of dietary iron in urban and provincial 4-year-old children in Iran. Asia Pac J Clin Nutr 11, 128132.Google Scholar