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Bibliografía Journal of Clinical Nutrition, 78, 436- 440. 97- Drago SR and Valencia ME. (2004). Influence of components of infant formulas on in vitro iron, zinc and calcium availability. Journal of Agricultural and Food Chemistry, 52, 3202-3207. 98- Durlach J. (1988). Magnesium, in Clinical Practice, John Libbey and Company ltd, pp, 1-349. 99- Ehrenkranz RA, Gettner PA, and Nelli CM. (1989). Nutrient balance studies in premature infants fed premature formula or fortified preterm human milk, Journal of Pediatric Gastroenterology and Nutrition, 8, 58- 67. 100- Ekmekcioglu C, Pomazal K, Steffan I, Schweiger B, and Marktl W. (1999a). Calcium transport from mineral waters across Caco-2 cells. Journal of Agricultural and Food Chemistry, 47, 2594-2599 101- Ekmekcioglu C, Anderle H, Strauss- Blasche G, Steffan I, Feyertag J, and Marktl W. (1999b). Calcium, magnesium, copper and zinc content of menu components: Comparison of analysed with calculated values. Nahrung, 43, 311-316. 102- Ekmekcioglu C. (2000). Intestinal bioavailability of minerals and trace elements from milk and beverages in humans. Nahrung, 44, 390-397. 103- Engelmann MDM, Davidsson L, Sandström B, Walczyk T, Hurell RF and Michaelsen KF (1998): The influence of meat on nonheme iron absorption in infants. Pediatrics Research, 43(6), 768-773. 104- Engerlhardt von W. (1995). Absorption of short chain fatty acids from the large intestine, in Physiological and clinical aspects of short chain fatty acids, J.H.Cummings, J.L.Rombeau, T. Sakata, eds., Cambridge: Cambridge University Press, pp.149. 105- Erba D, Ciapellauo S, and Testolin G. (2001). Effect of caseinphosphopeptides on inhibition of calcium intestinal absorption due to phosphate, Nutrition Research, 28, 649-656. 106- Fairweather-Tait SJ. (1987). The concept of bioavailability as it relates to iron nutrition. Nutrition Research, 7, 319-325. 107- Fairweather-Tait SJ. (1989). Iron in food and its availability. Acta Paediatrica Scandinavia Supplement, 361, 12-20 108- Fairweather-Tait SJ and Wright AJA (1991). Small intestinal transit time and iron absorption. Nutrition Research, 11, 1465-1468. 109- Fairweather-Tait SJ, Wharf SG and Fox TE (1995a): Zinc absorption in infants fed iron-fortified weaning food. American Journal of Clinical Nutrition, 62, 785-789. 110- Fairweather-Tait S, Fox T, Wharf GS and Eagles J (1995b): The bioavailability of iron in different weaning foods and the enhancing 257
Biodisponibilidad mineral de menús escolares effect of a fruit drink containing ascorbic acid. Pediatric Research, 37(4), 389-394. 111- Fairweather-Tait SJ and Hurrell RF. (1996). Bioavailability of minerals and trace elements. Nutrition Research Reviews, 9, 295-324. 112- Farré R, Frasquet I, Martínez I, Romá R. (1999). Dieta habitual de un grupo de adolescentes valencianos. Nutrición Hospitalaria, 14(6), 223-230 113- Favier AE. (1993). In U. Schlemmer (Ed.), Bioavailability ´93. Nutritional, chemical and food processing implications of nutrient availability. 114- Fengwu-Wu, Zhike-He, Quingyao- Luo, Yune-Zeng. (1999). HPLC determination of oxalic acid using tris (1,10-phenantroline)ruthenium(II) chemiluminiscence application to the analysis of spinach. Food Chemistry, 65, 543-546. 115- Fidler MC, Davidsson L,. Zeder C, Walczyck T and Hurrell RF (2003). Iron absorption from ferrous fumarate in adult women is influenced by ascorbic acid but not by Na 2 EDTA. British Journal of Nutrition, 90, 1081- 1085. 116- Finley JW, Briske-Anderson M, Reeves PG, and Johnson LK. (1995). Zinc uptake and transcellular movement by Caco-2 cells: Studies with media containing fetal bovine serum. Journal of Nutritional Biochemistry, 6, 137-144. 117- Fly AD and Czarnecki-Maulden GL (2000). Iron bioavailability from hemoglobin and hemin in chick, rat, cat, and dog: a comparative study. Nutrition Research, 20(2), 237-248. 118- Forbes RM. (1984). Use of laboratory animals to define physiological functions and availability of zinc. Fed. Proc. 43, 2835-2839. 119- Food and Nutrition Board (1997). Dietary Reference Intakes for Calcium, Phosphorus, Magnesium, Vitamin D, and Fluoride. Standing Committee on the Scientific Evaluation of Dietary Reference Intakes, Institute of Medicine, National Academic Press, Washington. 120- Food and Nutrition Board (2001), Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. Institute of Medicine. National Academic Press, Washington. 121- Forbes A, Adams C, Arnaud M, Chichester C, Cook J, Harrison B, Hurrell R, Kahn S, Morris E, Tanner J, and Whittaker P. (1989). Comparison of in vitro, animal and clinical determinations of iron bioavailability: International Nutritional Anemia Consultative Group Task Force report on iron bioavailability. American Journal of Clinical Nutrition, 49, 225-238. 122- Forth W. and Schafer SG. (1987). Absorption of di- and trivalent iorn. Experimental evidence. Arzneim- Forsch/ Drug Research, 37, 96-101. 258
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Dpto. de Bromatología y Tecnologí
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FACULTAT DE FARMÀCIA DEPARTAMENT D
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Todas las cosas que pasan en nuestr
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Agradecimientos Los agradecimientos
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Finalmente, al Ministerio de Educac
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Determinación del contenido minera
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Introducción I.1. Evolución del c
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Introducción refleja en los gastos
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Introducción - Bajo refrigeración
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Introducción - contribuir a la org
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Introducción - incluir en platos c
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Introducción los minerales son sus
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Introducción detrimento del hemo e
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Introducción mineral ó elemento t
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II. OBJETIVOS
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III. UNIDAD TEMÁTICA
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Unidad Temática Los isótopos radi
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Unidad Temática Métodos in vitro
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Unidad Temática más utilizada son
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Unidad Temática FACTORES FISIOLÓG
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Unidad Temática osteoporosis, hipe
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Unidad Temática el desarrollo cogn
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Unidad Temática Para algunos autor
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Unidad Temática Por todo ello el c
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Unidad Temática Cobre-ácido fíti
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Unidad Temática III.3. ESTIMACION
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Unidad Temática Esta línea fue es
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Unidad Temática El número de trab
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Unidad Temática Estimación de la
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Unidad Temática Tabla 2.- Porcenta
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Unidad Temática Figura 4.- Efecto
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Unidad Temática Los porcentajes de
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Unidad Temática III.4.- APORTE DE
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Unidad Temática En España existen
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Unidad Temática Figura 6.- Porcent
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Biodisponibidad mineral de menús e
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V. RESULTADOS
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Resultados Reference Subject (ISI J
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Resultados Introduction Because of
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Resultados Effect of caseinphosphop
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Resultados Dietary fiber and calciu
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Resultados This effect increase can
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Resultados of milk, by comparing ot
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Resultados BIBLIOGRAFIA 1.- M. Hern
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Resultados 17.- M. Moya, E. Cortés
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Resultados 35.-H. Spencer, C. Norri
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Resultados preterm infants fed a st
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Resultados et al. 1999; Black, 1998
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Resultados Zinc corporal content On
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Resultados Nevertheless, this antag
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Resultados kind of caseinophosphope
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Resultados studied zinc absorption
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Resultados On the other hand, it ha
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Resultados In relation to zinc fort
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Resultados References: Aranda P and
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Resultados Furniss DE, Vuichoud J,
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Resultados Lombardi-Boccia G, Schle
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Resultados Prasad AS (1982): Clinic
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Resultados Spencer H, Kramer L, Nor
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Resultados Figure 1.- Relations bet
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Resultados Summary: Iron is an esse
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Resultados iron bioavailability is
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Resultados Food Lamb Table 1.- Heme
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Resultados Meat factor Equally to h
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Resultados casein before its ingest
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Resultados was bound to 1, 25-β-ca
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Resultados Table 2.- Effects of vit
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Resultados significantly higher in
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Resultados Table 3.- Effects of phy
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Resultados hypocholesterolemic acti
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Resultados It seems that the conten
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Resultados Acknowledgements.- This
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Resultados Berner LA & Miller DD (1
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Resultados Conrad ME & Umbreit JN (
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Resultados Fidler MC, Davidsson L,.
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Resultados Hamed MY, Silver J & Wil
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Resultados Layrisse M, Chavez JF, M
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Resultados Ohta A, Ohtsuki M, Baba
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Resultados Sakai K, Ohta A, Shiga K
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Resultados Vonk AD, Schaasfsma G, D
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Resultados porcentajes de Fe y Zn b
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Resultados electron transfer and re
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Resultados In vitro estimation of t
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Resultados Standard Ca, Fe, Zn and
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Resultados mass cut-off value 10-12
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Resultados Dialysis mineral percent
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Resultados Table 4.- Solubility min
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Resultados Solubility and dialysabi
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Resultados Moody, 2003), and the da
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Resultados Iron dialysis percentage
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Resultados Copper Copper contents w
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Resultados The highest Zn dialysis
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Resultados Chawla, S., Saxena, A.,
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Resultados Haas, J.D., & Brownlie,
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Resultados Miller, D.D., Schricker,
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Resultados Sebastiá, V., Barberá,
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Resultados 1. Introduction Speciati
Page 225 and 226: Resultados experimented by foods du
Page 227 and 228: Resultados Standard Fe solutions we
Page 229 and 230: Resultados 2.5. Nonheme Fe (ionic)
Page 231 and 232: Resultados Table 2.- Effect of simu
Page 233 and 234: Resultados Table 3.- Contribution o
Page 235 and 236: Resultados Table 5.- Total Fe, ioni
Page 237 and 238: Resultados In potato and spinach om
Page 239 and 240: Resultados References 1. Schricker
Page 241 and 242: VI. DISCUSIÓN GENERAL
Page 243 and 244: Biodisponibilidad mineral de menús
Page 265 and 266: Conclusiones PRIMERA La revisión d
Page 267 and 268: Conclusiones NOVENA Las contribucio
Page 275: Biodisponibilidad mineral de menús
Page 301 and 302: IX.ANEXOS
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