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A Study on the Iron Nutritional Status with Biochemical Parameters in Preschool Children  

Yu, Kyeone-Hee (Department of Hotel Culinary Arts, Ulsan College)
Publication Information
Journal of Nutrition and Health / v.38, no.7, 2005 , pp. 533-543 More about this Journal
Abstract
The purpose of this study was to determine the iron status of preschool children in Ulsan, Korea. The study was con-ducted using 95 children aged 3 to 6 years by investigating the anthropometric indices and assessing the dietary intakes and biochemical analysis. A questionnaire for dietary intakes using 24-hr recall method were carried out by the mothers of the 95 subjects. And also a study was conducted to assess hematological and biochemical status of iron and prevalence of iron deficiency. The average height and weight were 105.4 $\pm$ 7.0 cm, 18.7 $\pm$ 3.2 kg in boys, 103.8 $\pm$ 6.7 cm, 17.6 $\pm$ 2.7 kg in girls. These were lower than the body growth standard values of Korean pediatrics. There was not a significant difference in both between boys and girls. For the daily nutrient intake, energy was 1201.5 $\pm$ 280.9 kcal (79.3$\%$RDA), protein was 63.8 $\pm$ 28.2 g (219.4$\%$RDA), iron was 11.9 $\pm$ 4.5 mg (133.2$\%$RDA). The iron nutritional status by hematological assay found that Hct was 34.7 $\pm$ 2.0 ($\%$), Hb was 12.0 $\pm$ 0.8 g/dl, RBC was 4.3 $\pm$ 0.3 ($10^6/{\mu}l$), MCV was 80.5 $\pm$ 3.0 fL, MCH was 27.8 $\pm$ 1.1 pg and MCHC was 34.6 $\pm$ 0.6 g/dl. The biochemical measurement of serum iron was 75.6 $\pm$ 30.3 ${\mu}g$/dl, TIBC was 320.3 $\pm$ 34.1 ${\mu}g$/dl, serum ferritin was 30.0 $\pm$ 14.8 ${\mu}g$/dl, Zinc-Protophor-phyrin (ZPP) was 32.7 $\pm$ 8.0 ${\mu}g$/dl, and ZPP/Heme was 71.1 $\pm$ 19.5 ($\mu$mole/mol heme). The prevalence with Hct, Hb, TS and serum ferritin less than cut-off value was $8.4\%,\;9.5\%,\;12.6\%$ and $4.4\%$ respectively. But the prevalence of iron deficiency estimated with ZPP and ZPP/Heme criteria were $25.3\%$ and $27.4\%$, and were higher than in case of any other indices. The prevalence of iron deficiency anemia ((low Hb (< 11.0 g/dl) and low serum ferritin (< 10 ${\mu}g$/L) or low TS (3-4 yews: < $12\%$, 5-6 years: < $14\%$)) was found in only one 3 year old girl. The prevalence of iron deficiency except Hct and Hb was the highest in 3 year group, but the prevalence by Hct and Hb was the highest in 5 year group. Iron deficiency and iron deficiency anemia do not seem to be a major public health problem in preschool children in Ulsan.
Keywords
preschool children; nutrients intakes; biochemical iron indices; iron deficiency;
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1 Looker AC, Dallman PR, Carroll MD, Gunter EW, Johnson CL. Prevalence of iron deficiency in the united States. JAMA 277 (12): 973-976, 1997   DOI   ScienceOn
2 Soemantri AG, Pollitt E, Kim I. Iron deficiency anemia and educational achievement. Am J Clin Nutr 42: 1221-1228, 1985
3 Thomson G, Raab GM, Hepburm WS, Hunter R. Blood lead levels and children's behavior. J Child Psychol Psychiatry 30: 515-519, 1989   DOI
4 Lamola AA, Yamane T. Zinc protoporphyrin in the erythrocytes of patients with lead intoxication and iron deficiency anemia. Science 186: 936-938, 1974   DOI   PUBMED   ScienceOn
5 Lamola AA, Joselow M, Yamane T. Zinc protoporphyrin (ZPP): A simple, sensitive fluorometric screening test for lead poisoning. Clin Chem 21: 93-97, 1975
6 Yang IS, Kim EK, Bai YH, Lee SJ, Ahn HJ. Development of nutrition education program that promotes eating behavior of preschool children-especially focused on being familiar with vegetable-. Korean J Dietary Culture 8 (2): 125-137, 1993
7 Ahn HS, LIm HJ. Analysis offactors associated with the preschool children's nutrition awareness and involvement in food-related activities. Korean J Dietary Culture 9 (3): 311-321, 1994
8 Freire WB. Hemoglobin as predictor of response to iron therapy and its use in screening and prevalence estimates. Am J Clin Nutr 50: 1442-1449, 1989
9 American Academy of Pediatrics, Pediatric Nutrition Handbook, Elk Grove, II: AAP, 1993
10 McLaren GD, Carpenter JT, Nino HV. Erythrocyte protoporphyrin in the detection of iron deficiency. Clin Chem 21: 1221-1227, 1975
11 Dallman PRo New approaches to screening for iron deficiency. J Pediatrics 90 (4) : 678-681, 1977   DOI   PUBMED
12 George JC, Walter EA. Chronic lead poisoning. J Pediatr 18: 943-957, 1959
13 Son SM, Park SH. Nutritional status of preschool children in low income urban area-I. anthropometry and dietary intake-. Korean J Community Nutrition 4(2): 123-131, 1999
14 Chung HK. Evaluation of nutrition status on the basis of orphan home children's anthropometry. Korean J Dietary Culture 6(4): 413-419,1991
15 Rettrner RL, Carlson TH, Origenes ML, Jack RM, Labb RF. Zinc ProtoporphyrinlHeme ratio for diagnosis of preanemic iron deficiency. Pediatrics 104 (3) : e37, 1999   DOI   ScienceOn
16 Marsh WL, Nelson DP, Koenig HM. Free erythrocyte protoporphyrin (FEP) 1. Normal values for adults and evaluation of the haematofluorometer. Am J Clin Pathol 79: 655-660, 1989
17 Barton JC, Conrad ME, Nuby S, Harrison L. Effects of iron on the absorption and retention of lead. J Lab Clin Med 92 (4) : 537-547, 1978
18 Tchai BS, Suh DH, Han JH. Study on the erythrocyte zinc protoporphyrin and ZPP/Heme ratio in normal Korean. Korean J Nutrition 25 (7): 608-616, 1992
19 Pipes PL, Trahms CM. Nutrition in Infancy and Childhood, pp 30-58, Mosby, St. Louis, 1993
20 Lee WM, Pang HA. A study on the preference and food behavior of the children in primary school food service II. J Korean Dietetic Assoc 2 (1) : 69-80, 1996
21 Kye SH, Park KD. A survey on nutritional status and anthropometry of preschool children in orphanage. J Korean Soc Food Nutr 22 (5) : 552-558, 1993
22 United Nations ACC/SCN. Second report on the world nutrition situation. Vol1. Global and regional results. Geneva: ACC/SCN, 1992
23 Jenson BM, Sando SH, Grandjean P, Wiggers P, Dalhoj J. Screening with zinc protoporphyrin for iron deficiency in non-anemic female blood donors. Clin Chem 36: 846-848, 1990
24 Yim KS, Yoon EY, Kim KT, Kim CI, Mo SM, Choi HM. Eating behavior, obesity and serum lipid levels in children. Korean J Nutrition 26 (1) : 56-66, 1993
25 Choi MJ, Yoon JS. The effect of eating habits and nutrient intake on the physical growth indices in preschool children. Korean J Community Nutrition 8 (1): 3-14,2003
26 Kim KA, Shim YH. Cognitive performance and hyperactivity in terms of eating behavior and physical growth among preschoolers- I. A survey on eating behavior of preschoolers. Korean J Dietary Culture 10 (4) : 255-268, 1995
27 Choi MK, Lee SY. The effect of breast feeding on growth development, bone mineral density of carpus and nutrient intakes in preschool children. Korean J Community Nutrition 10 (1) : 3-11, 2005
28 Park HR, Lim YS. A study of the effect of weaning foods-feeding methods in weaning periods on preschool-children's food habit, food preference and iron nutritional status, Korean J Nutrition 32(3):259-267,1999
29 Staton NV, Gunter EW, Parsons PJ, Field PH. Empirically determined lead poisoning screening cut off for the Protofluor-Z hematofluorometer. Clin Chem 35: 2104-2107, 1989
30 Piomelli S, Lamola AA, Poh-Fitzpatrick MB, Seaman C, Hamer LC. Erythropoietic protoporphyria and lead liquid intoxication: The molecular basis for difference in cutaneous photosensitivity. J Clin Invest 56: 1519-1527,1975   DOI
31 Karr M, Alperstein G, Causer J, Mira M, Lammi A, Fett MJ. Iron status and anemia in preschool children in Sydney. Aust NZJ Public Health 20(6): 618-622, 1996   DOI   ScienceOn
32 Lozoff B, Jimenez E, Wolf W. Long-term developmental outcome of infants with iron deficiency. N Engl J Med 325: 687-693, 1991   DOI   ScienceOn
33 Park SY, Paik HY, Moon HK. A study on the food habit and dietary intake of preschool children. Korean J Nutrition 32 (4) : 419-429, 1999
34 Labbe RF, Rettmer RL. Zinc protoporphyrin: a product of irondeficient erythropoiesis. Semin Hematol 26: 40-46, 1989
35 Yang IS, Kim EK, Chai IS. The development and effect-evaluation of nutrition education program for preschool children and child-care centers. Korean J Nutrition 28 (1) : 61-70, 1995
36 Body growth standard values of Korean pediatrics in 1998: Korean Society of Pediatrics, 1999
37 Schifman RB, Thomasson JE, Evers JM. Red blood cell zinc protoporphyrin testing for iron-deficiency anemia in pregnancy. Am J Obstet Gynecol 157: 304-307, 1987
38 Lee EW, Mo SM. Overall assessment of nutrition and food ecology of young children in day care centers located in urban low income areas. J Korean Publ Health Assoc 12 (1) : 31-44, 1986
39 Report of 2001 National Health and Nutrition Survey: Ministry of Health and Welfare, 2003