Intestinal absorption of iron and calcium from soy and cow’s milk-based infant formulas in weanling rats pups

Autores/as

  • Maisa de Lima Correia SILVA Universidade Federal de São Paulo
  • Patrícia da Graça Leite SPERIDIÃO Universidade Federal de São Paulo
  • Renata MARCIANO Universidade Federal de São Paulo
  • Olga Maria Silvério AMÂNCIO Universidade Federal de São Paulo
  • Tânia Beninga de MORAIS Universidade Federal de São Paulo
  • Mauro Batista de MORAIS Universidade Federal de São Paulo

Palabras clave:

Calcium, Intestinal absorption, Iron, Milk proteins, Soy proteins

Resumen

Objective
This study aimed to compare the intestinal absorption of iron and calcium between soy-based and cow’s milk-based infant formulas in weanling rats.

Methods
Twenty male Wistar rats, twenty-one days old on the first day of weaning, were used in this experiment, divided in two Groups, one Group was fed soy protein-based infant formula the other, cow’s milk protein-based infant formula. During the study period (ten consecutive days) the animals received food and water ad libitum. Hematocrit and hemoglobin were evaluated on the first, fifth, and tenth days by the Wintrobe and cyanomethemoglobin methods. Feces and urine were collected, beginning on the fifth day, for three consecutive days. On the tenth day, hepatic iron content was also analyzed. Hepatic iron as well as fecal and urinary iron and calcium analyses were performed using an atomic absorption spectrophotometer. At thirty-one days of age, the animals were anesthetized with ketamine and xylazine and sacrificed by exsanguination via the vena cava.

Results
The final concentration of hemoglobin in the group soy-based infant formula and milk-based infant formula were: 10.3±1.3g/dL and 10.9±1.0g/dL (p=0.310). The apparent absorption of iron and calcium, in that order, were: 73.4±10.2% and 70.2±9.5%; 97.2±0.7% and 97.6±1.0% (p=0.501; p=0.290). The apparent calcium retention was: 88.4% ±2.2 and 88.6±2.6% (p=0.848). Hepatic iron content was: 522.0±121.1mg/g and 527.8±80.5mg/g (p=0.907).

Conclusion
Intestinal iron and calcium absorption from soy-based infant formula is similar to that from milk-based infant formula in weanling rats. 

Citas

ESPGHAN Committee on Nutrition, Agostoni C, Axelsson I, Goulet O, Koletzko B, Michaelsen KF, et al. Soy protein infant formulae and follow-on formulae: A commentary by the ESPGHAN Committee on Nutrition. J Pediatr Gastroenterol Nutr. 2006;42(4):352-61.

Bhatia J, Greer F. Use of soy protein-based formulas in infant feeding. Pediatrics. 2008;121(5):1062-8.

Lönnerdal B. Nutritional aspects of soy formula. Acta Paediatr. 1994;402(s402):105-8.

Muraro MA. Soy and other protein sources. Pediatr Allergy Immunol. 2001;12(Suppl.14):85-90.

Badger TM, Gilchrist JM, Pivik RT, Andres A, Shankar K, Chen JR, et al. The health implications of soy infant formula. Am J Clin Nutr. 2009;89(5):1668S-72S.

Bennetts HW, Underwood EJ, Shier FL. A specific breeding problem of sheep on subterrean clover pastures in Western Australia. Aust Vet J. 1946;22:2-12.

Naaz A, Szewczykowski MA, Sato T, Woods JA, Chang J, et al. The phytoestrogen genistein indusces thymic and immune changes: A human health concern? Proc Natl Acad Sci USA. 2002;99(11):7616-21.

Turck D. Soy protein for infant feeding: What do we know? Curr Opin Clin Nutr Metab Care. 2007;10(3):360-5.

Scientific Committee on Food. Report on the revision of essential requirements of infant formulae and follow-on formulae. Brussels: European Commission; 2003. SCF/CS/NUT/IF/65.

Lönnerdal B, Yuen M, Huang S. Calcium, iron, zinc, copper and manganese bioavailability from infant formulas and weaning diets assessed in rat pups. Nutr Res. 1994;14(10):1535-48.

Rudloff S, Lönnerdal B. Calcium and zinc retention from protein hydrolysate formulas in suckling rhesus monkeys. Am J Dis Child. 1992;146(5):588-91.

Davidsson L, Galan P, Kastenmayer P, Cherouvrier F, Juillerat MA, Hercberg S, et al. Iron bioavailability studied in infants: The influence of phytic acid and ascorbic acid in formulas based on soy isolate. Pediatric Res. 1994;36(6):816-22.

Hurrell RF, Davidsson L, Reddy M, Kastenmayer P, Cook JD. A comparison of iron absorption in adults and infants consuming identical infant formulas. Br J Nutr. 1998;79(1):31-6.

Hurrell RF, Juillerat MA, Reddy MB, Lynch SR, Dassenko SA, Cook JD. Soy protein, phytate, and iron absorption in humans. Am J Clin Nutr. 1992;56(3):573-8.

Gillooly M, Torrance JD, Bothwell TH, MacPhail AP, Derman D, Mills W, et al. The relative effect of ascorbic acid on iron absorption from soy-based and milk-based infant formulas. Am J Clin Nutr. 1984;40(3):522-7.

Lynch SR, Dassenko SA, Cook JD, Juillerat MA, Hurrell RF. Inhibitory effect of a soybean-proteinrelated moiety on iron absorption in humans. Am J Clin Nutr. 1994;60(4):567-72.

Jovaní M, Barberá R, Farré R, Martín de Aguilera E. Calcium, iron, and zinc uptake from digests of infant formulas by Caco-2 cells. J Agric Food Chem. 2001;49(7):3480-5.

García R, Alegría A, Barberá R, Farré R, Lagarda MJ.Dialyzability of iron, zinc, and copper of different types of infant formulas marketed in Spain. Biol Trace Elem Res. 1998;65(1):7-17.

Nogueira CSN, Colli C, Amancio OMS. Infant formula iron dialysability related to other nutrients. Food Chem. 2005;90(4):779-83.

ESPGHAN Committee on Nutrition, Agostoni C, Axelsson I, Goulet O, Koletzko B, Michaelsen KF, et al. Soy protein infant formulae and follow-on formulae: A commentary by the ESPGHAN Committee on Nutrition. J Pediatr Gastroenterol Nutr. 2006;42(4):352-61.

Shenai JP, Jhaveri BM, Reynolds JW, Huston RK, Babson SG. Nutritional balance studies in very lowbirth-weight infants: Role of soy formula. Pediatrics. 1981;67(5):631-7.

Rudloff S, Lönnerdal B. Calcium retention from milk-based infant formulas, whey-hydrolysate formula, and human milk in weanling rhesus monkeys. Am J Dis Child. 1990;144(3):360-3.

Bosscher D, Van Dyck K, Robberecht H, Van CaillieBertrand M, Deelstra H. Bioavailability of calcium and zinc from cow’s milk-based versus soya-based infant food. Inter J Food Sci Nutr. 1998;49:277-83.

Roig MJ, Alegría A, Barberá R, Farré R, Lagarda MJ. Calcium bioavailability in human milk, cow milk and infant formulas: Comparison between dialysis and solubility methods. Food Chem. 1999;65(3):353-7.

Wintrobe M, Mollin D, Herbert V, Blanc B, Finch C, Halberg L, et al. Anemias nutricionales. Org Mund Salud Ser Inf Técn. 1968;405:5-39.

Campbell JA. Method for determination of PER and NPR. In: Evaluation of protein quality. Whasington (DC): National Academy of Sciences; 1963. p.31-2.

Marks GE, Moore CE, Kanabrocki EL, Oester YT, Kaplan E. Determination of trace elements in human tissue. I, Cd, Fe, Zn, Mg and Ca. Appl Spectrosc. 1971;26:523-7.

Fernandez FJ, Kahn HL. Clinical methods for atomic absorption spectroscopy. Clin Chem Newsl. 1971;3:24.

Costa ML, Freitas KC, Amancio OM, Paes AT, Silva SM, Luz J, et al. Iron absorption from infant formula and iron-fortified cow’s milk: Experimental model in weanling rats. J Pediatr. 2009;85(5):449-54.

Silva ML, Speridião PG, Marciano R, Amâncio OM, Morais TB, Morais MB. Effects of soy beverage and soy-based formula on growth, weight, and fecal moisture: Experimental study in rats. J Pediatr. 2015;91(3):306-12.

Farjalla, LB. Absorção intestinal do ferro de fórmulas infantis anti-regurgitação espessadas com fibra alimentar goma jataí e amido de milho em ratos recém-desmamados [tese]. São Paulo: Universidade Federal de São Paulo; 2011.

Lopes, LA. Efeitos da restrição de macronutrientes sobre o crescimento corporal e a histopatologia do sistema nervoso central de ratos jovens desnutridos intra-útero [tese]. São Paulo: Universidade Federal de São Paulo; 1999.

Mendez MA, Anthony MS, Arab L. Soy-based formulae and infant growth and development: A review. J Nutr. 2002;132(8):2127-30.

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Publicado

2023-03-16

Cómo citar

de Lima Correia SILVA, M. ., da Graça Leite SPERIDIÃO, P., MARCIANO, R. ., Silvério AMÂNCIO, O. M. ., Beninga de MORAIS, T., & Batista de MORAIS, M. . (2023). Intestinal absorption of iron and calcium from soy and cow’s milk-based infant formulas in weanling rats pups. Revista De Nutrição, 30(1). Recuperado a partir de https://seer.sis.puc-campinas.edu.br/nutricao/article/view/7818

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ARTIGOS ORIGINAIS