Efecto de la adición de fitasa sobre la biodisponibilidad mineral in vitro en papillas infantiles

  1. Frontela Saseta, María del Carmen
Supervised by:
  1. María del Carmen Martínez Graciá Director
  2. Gaspar Francisco Ros Berruezo Director

Defence university: Universidad de Murcia

Fecha de defensa: 25 September 2008

Committee:
  1. Rosaura Farré Rovira Chair
  2. María Jesús Periago Gastón Secretary
  3. Rafael Moreno Rojas Committee member
  4. Laura Scarano Committee member
  5. Juana M. Frías Arevalillo Committee member
Department:
  1. Food Technology, Nutrition and Bromatology

Type: Thesis

Teseo: 139295 DIALNET lock_openDIGITUM editor

Abstract

Los cereales son empleados como dieta complementaria a la lactancia materna a partir del 4º mes ya que suministra nutrientes esenciales (especialmente hidratos de carbono, proteínas, minerales y vitaminas (particularmente tiamina). Los alimentos infantiles elaborados a partir de harinas procedentes de cereales pueden presentar compromiso en la biodisponibilidad de determinados minerales, por ello, es de gran importancia tratar de establecer los tratamientos tecnológicos necesarios para que la utilización de estos nutrientes esenciales sea la máxima. Se ha comprobado que el método más sencillo y eficaz de conseguir la eliminación del ácido fítico, es la adición de fitasa exógena. ABSTRACT Dietary minerals intake is of interest of human beings in general, but particularly for infant and young children in the first year of life, when growth is accelerated. Insuficient mineral intake in this period, mainly of iron, calcium and zinc, is responsible for diseases such as anaemia, rickets, osteoporosis or inmune diseases. Cereals are introduced to infants at the age of four to six months to supplement breastmilk and follow-on formula, since this is a period of rapid growth and development. Phytic acid (myoinositol hexa-phosphoric acid, IP6) is the major phosphorus storage compound of most seeds and cereal grains, and it has a strong ability to chelate multivalent metal ions, specially iron, zinc, and calcium.Based on this knowledge, complete phytate degradation by means of technological treatments is desirable, in order to overcome its negative effects on mineral bioavailability. Food processing-such as cooking, bread-making and fermentation-is known to reduce phytic acid content. However, the bioavailability of minerals can be considerably increased by dephytinization adding an exogenous phytase.