Does processing of a powder or in-bottle-sterilized liquid infant formula affect calcium bioavailability?

References 

1. Hurrell RF. Influence of the Maillard reaction on the nutritional value of foods. In: Finot PA, Aeschbacher HU, Hurrell RF, Liardon R, eds. The Maillard reaction in food processing, human nutrition and physiology. Basel: Birkhäuser-Verlag, 1990:245
2. Delgado T, Corzo N, Santa-Marı́a G, Jimeno ML, Olano A. Determination of furosine in milk samples by ion-pair reversed phase liquid chromatography. Chromatographia. 1992;33:374
3. O’Brien JM, Morrisey PA. Metal complexation of products of the Maillard reaction. Food Chem. 1997;58:17
4. Ames JM, Wynne A, Hofmann A, Plos S, Gibson GR. The effect of a model melanoidin mixture on faecal bacterial populations in vitro. Br J Nutr. 1999;82:489
   • MEDLINE
5. Brommage R, Binacua C, Antille S, Carrié AL. Intestinal calcium absorption in rats is stimulated by dietary lactulose and other resistant sugars. J Nutr. 1993;123:2186
   • MEDLINE
6. Washington N, Harris M, Mussellwhite A, Spiller RC. Modification of lactulose-induced diarrhea by psyllium (effects on motility and fermentation). Am J Clin Nutr. 1998;67:317
   • MEDLINE
7. Langhendries JP, Hurrell RF, Furniss DE, et al.  Maillard reaction products and lysinoalanine (urinary excretion and the effects on kidney function of preterm infants fed heat-processed milk formula). J Pediatr Gastr Nutr. 1992;14:62
8. Sarriá B, López-Fandiño R, Vaquero MP. Protein nutritive utilization in rats fed powder and liquid infant formulas. Food Sci Tech Int. 2000;6:9
9. Dahiya S, Kapoor AC. Bioavailability of minerals from home processed supplementary foods developed for pre-scholars. In: Voragen AGJ, West CE, eds. Bioavailability ’97. Wageningen: Graduate School VLAG (Advanced Studies in Food Technology, Agrobiotechnology, Nutrition and Health Sciences), 1997:82
10. Vaquero MP, Van Dokkum W, Van den Hamer CJA, Schaafma G. Bioavailability of calcium from breakfasts containing coffee. In vitro and in vivo determinations. In: Schlemmer U, ed. Bioavailability, ’93. Nutritional, chemical and food processing implications of nutrient availability, Part 1. Karlsruhe: Bundesforschungsanstalt für Ernährung, 1993:249
11. Lönnerdal B, Yuen M, Glazier C, Litov RE. Magnesium bioavailability from human milk, cow milk, and infant formula in suckling rat pups. Am J Clin Nutr. 1993;58:392
    • MEDLINE
12. Sandstrom B, Keen CL, Lonnerdal B. An experimental model for studies of zinc bioavailability from milk and infant formulas using extrinsic labelling. Am J Clin Nutr. 1983;38:420
    • MEDLINE
13. Sarriá B. Efectos del tratamiento térmico de fórmulas infantiles y leche de vaca sobre la biodisponibilidad mineral y proteica (PhD dissertation). Madrid: Complutense University, 1998
14. Pérez-Granados AM, Vaquero MP, Navarro MP. Calcium and phosphorous bioavailability in rats consuming oil from either raw sardines or sardines fried in olive oil. Food Sci Technol Int. 2000;6:386
15. Olano A, Calvo MM, Reglero G. Analysis of free carbohydrates in milk using micropacked columns. Chromatographia. 1986;21:538
16. López-Fandiño R, Olano A. Review (selected indicators of the quality of thermal processed milk). Food Sci Technol Int. 1999;5:121
17. Rossi M, Pompei C. Changes in liquid milk-based infant formulas during heat treatments. Ital J Food Sci. 1991;1:39
18. Shen L, Luten J, Robberecht H, Bindels J, Deelstra H. Modification of an in-vitro method for estimating the bioavailability of zinc and calcium from foods. Z Lebensm Unters Forsch. 1994;199:442
    • MEDLINE
19. Roig J. Biodisponibilidad de cobre y calcio en leche y fórmulas para lactantes (PhD dissertation). Valencia, Spain: University of Valencia, 1997
20. Bosscher D, Van Dyck K, Robberecht H, Van Caillie-Bertrand M, Deelstra H. Bioavailability of calcium and zinc from cow’s milk-based versus soya-based infant food. Int J Food Sci Nutr. 1998;49:277
    • CrossRef
21. Aarle C, Bontenbal E, Potjewjd RE. The dialysability of calcium, magnesium and iron as a method to compare in vitro bioavailability of minerals in foods. In: Bioavailability ’97. Wageningen: Graduate School, VLAG, 1997:117
22. Vaquero MP, Van Dokkum W, Bos KD, Wolters MGE. In vitro availability of calcium, magnesium, iron, copper and zinc from white or brown bread separately or in combination with other food. Rev Esp Cien Tecnol Aliment. 1992;32:47
23. O’Brien J, Walker R. Toxicological effects of dietary Maillard reaction products in the rat. Food Chem Toxic. 1988;26:775
24. Aspe T, Vaquero MP, Navarro, MP. Changes in the speciation and utilization on calcium in rats by the presence of untreated or heated casein, separately or in combination with glucose and fructose. In: U. Schlemmer, ed. Bioavailability ’93. Nutritional, chemical and food processing implications on nutrient availability, Part 2. Germany, 1993:68
25. Varela P, Arce MM, Marcos A, Castrillón AM. Immunocompetence in relation to a heat-processed diet (Maillard reaction) in weanling rats. Br J Nutr. 1997;77:947
    • MEDLINE
    • CrossRef
26. Burton H. Properties of UHT-processed milk. In: Burton H, ed. Ultra-high temperature processing of milk and milk products. London: Elsevier Science, 1988:254
27. Nagendra R, Viwanatha S, Narasimha Murthy K, Venkat Rao S. Effect of incorporation of lactulose in infant formula on absorption and retention of nitrogen, calcium, phosphorus and iron in rats. Int Dairy J. 1994;4:779
28. Bronner F. Intestinal calcium absorption (mechanisms and applications). J Nutr. 1987;117:1347
    • MEDLINE
29. Trinidad TP, Wolever TMS, Thompson LU. Availability of calcium for absorption in the small intestine and colon from diets containing available and unavailable carbohydrates (an in vitro assessment). Int J Food Sci Nutr. 1996;47:83
    • MEDLINE
    • CrossRef
30. Vaquero MP, Sarriá B, Pérez-Granados AM. Effects of heat treatment on food mineral bioavailability. Rec Res Dev Agric Food Chem. 1998;2:599