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There is a critical need for iron intake during the first period of life. The growing infant requires iron to synthesize hemoglobin and to supply expanding tissues with iron-containing enzymes. A lack of iron will eventually lead to iron deficiency anemia, one of the most common single nutrient deficiencies in the world. Today, detailed information has increased our understanding of iron bioavailability from different dietary sources, uptake mechanisms of iron into the small intestinal mucosa for transport to hepatocytes and erythropoietic cells and subsequent receptor mediated cellular acquisition. Metabolic effects of iron deficiency have also been investigated in several tissues. This comprehensive text integrates recent information and address it from a nutritional perspective. It takes this focus because of the increased knowledge on the interrelationship between iron and other essential nutrients. Specific problems of iron nutriture and oxidant stress in prematurely born infants are also addressed in this informative new text
There is a critical need for iron intake during the first period of life. The growing infant requires iron to synthesize hemoglobin and to supply expanding tissues with iron-containing enzymes. A lack of iron will eventually lead to iron deficiency anemia, one of the most common single nutrient deficiencies in the world. Today, detailed information has increased our understanding of iron bioavailability from different dietary sources, uptake mechanisms of iron into the small intestinal mucosa for transport to hepatocytes and erythropoietic cells and subsequent receptor mediated cellular acquisition. Metabolic effects of iron deficiency have also been investigated in several tissues. This comprehensive text integrates recent information and address it from a nutritional perspective. It takes this focus because of the increased knowledge on the interrelationship between iron and other essential nutrients. Specific problems of iron nutriture and oxidant stress in prematurely born infants are also addressed in this informative new text
For the first time, an entire publication has been dedicated to providing a critical review of the identification and analysis of the milk specific proteins such as lactalbumin, lactoferrin and casein; the non-milk specific proteins such as plasma and membrane proteins; and the minor nitrogen-containing components such as enzymes, hormones, and growth factors. Biological roles, whether nutritional, endocrinological or immunological, of the specific nitrogen compounds in mammary milk production and/or growth and development of the breast-fed infant are also presented. Identification of the molecular weight compounds that have led to questions about their function in milk and their inclusion in modern infant formulas is thoroughly discussed and of great value to scientists in sub-specialties of biochemistry, nutrition, physiology and immunology, as well as to pediatric practitioners with primary interests in the infant food industry, academia, or clinical nutrition. The thoroughness of each chapter, often providing an historical panorama of the specific aspect of milk composition, makes this book useful for both the uninitiated and expert audiences who are interested in advancing their knowledge of human milk biochemistry and its physiological significance to the recipient infant.
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