Food fortified with iron

Food or edible material: processes – compositions – and products – Product with added plural inorganic mineral or element...

Reexamination Certificate

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C426S593000, C426S594000, C424S439000

Reexamination Certificate

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06344223

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to the fortification of food and more particularly to the fortification of food with iron.
BACKGROUND OF THE INVENTION
Iron is an essential trace element in animal and human nutrition. It is a component of heme in hemoglobin and of myoglobin, cytochromes and several enzymes. The main role of iron is its participation in the transport, storage and utilization of oxygen.
Deficiency of iron was and remains a common nutritional problem not only in the developing but also in the industrialized countries. Inadequate intake of dietary iron causes the high incidence of anaemia which nutritional surveys have identified among children, adolescents and women. Since the body does not produce minerals, it is totally dependent on an external supply of iron, either nutritional or supplementary. The importance of adequate iron intake is recognized during the whole life of the human being. The recommended daily allowance for iron intake is from 10 to 18 mg per day, and is dependent on age and sex. Children, women up to the time of menopause, and expectant and nursing mothers are in the group with higher requirements of iron.
Iron in the form of a salt or complex can be added to food and/or beverages to provide the daily allowance. The main problems caused by iron sources added to food and beverages are color and off-flavor production, especially in the presence of oxygen, light and at high temperature. Moreover, the addition of iron to beverages, especially to tea, chocolate milk or banana containing drinks, can be very difficult. If highly or slightly soluble sources of iron are used, interaction between the iron and iron sensitive ingredients, such as polyphenols, occurs. Thus, the addition of ferrous sulfate or other soluble iron salts such as ferric sulfate, ferrous lactate, ferrous gluconate, ferrous fumarate, ferric citrate, ferric choline citrate, ferric ammonium citrate, etc., cause chocolate powders and other RTD (ready-to-drink) mixes to turn dark grey when reconstituted with water or milk.
Another problem in iron fortification is the capacity of iron to promote destructive free-radical reactions, which can result in off-flavors. Thus, the addition of soluble iron sources to fat containing products—mostly products with a high level of unsaturated fatty acids—cause flavor changes due to lipid oxidation. Iron promoted oxidation not only affects the organoleptic properties of foods and beverages, but also undesirably affects the nutritional quality of these products. These interactions can be also enhanced during heat treatment, such as pasteurization or sterilization.
As alternatives to the soluble sources of iron, which are highly bioavailable but lead to an undesirable flavor and/or color, insoluble iron sources such as elemental iron, ferric pyrophosphate, etc. may be used. These forms of iron cause little or no discoloration and off-flavor problems but are poorly bioavailable.
Furthermore, it is well recognized that ferrous compounds in general are more bioavailable than ferric. This correlates with higher solubility of ferrous compared to ferric salts at physiological pH, as well as with lower affinity of Fe(II) to form complexes.
U.S. Pat. No. 4,020,158 describes a method of raising the levels of essential bivalent metals in the tissue of animals which comprises the administration to animals of exogenously synthesized metal proteinates by dissolving metal salts in aqueous solutions of protein hydrolysates and adding sufficient base to pH between about 7.5 and 10 to precipitate the metal proteinates. According to the patent only soy protein as source of protein was used to obtain protein hydrolysate (by heating soy protein in hydrochloric acid solution at 130° C. for 4 hours). Using the complex prepared by this method led to product discoloration when chocolate powders were reconstituted with cold/hot water or milk, indicating weak or incomplete complex formation.
U.S. Pat. No. 4,216,144 describes an iron proteinate coordination complex with at least three protein hydrolysate ligands selected from the group consisting of polypeptides, peptides and naturally occurring amino acids. The iron proteinate has been shown by analysis to be at least 70 to 80 percent chelated. Therefore, because of 20 to 30% of free iron, the patented chelate can not prevent discoloration and off-flavor development, particularly when it is used to fortify polyphenol or other fat containing products, such as cocoa, coffee, tea, banana, etc. Thus, improvements in this area are needed.
SUMMARY OF THE INVENTION
We now have developed an iron fortification system which does not deleteriously affect organoleptic properties, and which is particularly useful for products containing polyphenols (cocoa, tea, etc.), or which have a high fat content. This iron fortification system comprises compounds prepared from sources of ferrous or ferric iron, phosphates, and ammonium. Such compounds, on the one hand, possess strong iron-ligand bonds which prevent reactivity of free iron and, on the other hand, dissociate at the acidic stomach media to provide high bioavailability of iron.
Accordingly, the present invention provides a fortified foodstuff comprising a fortifying amount of an inorganic compound prepared from sources of ferrous or ferric iron, phosphate and ammonium.
DETAILED DESCRIPTION OF THE INVENTION
Advantageously, the foodstuff which is to be fortified with iron is a food or beverage, particularly a food or beverage that is sensitive to oxidation, off-flavor development, or discoloration in the presence of free iron.
The foodstuff may be a dairy-based product such as a milk cocoa containing beverage, a liquid nutritional product or other beverages such as a juice, or it may be a powdery product, e.g., instant coffee, cocoa containing mixtures (e.g, MILO, NESQUIK, etc.) liquid formulae, and the like.
The developed ferrous and ferric compound also work well in fortified products containing iron-sensitive components, such as polyphenols, unsaturated fatty acids, etc.
The amount of iron provided in the food or beverage may be from 1 to 200 ppm, preferably from 5 to 100 ppm and more preferably from 10 to 75 ppm.
The iron ferrous source that can be used to create these compounds can include any food grade ferrous salt, such as ferrous sulfate, ferrous ammonium sulfate, ferrous chloride, ferrous malate, ferrous acetate, ferrous gluconate, ferrous nitrate, ferrous lactate, ferrous fumarate, ferrous succinate, and ferrous oxide, ferrous hydroxide or mixture thereof. The most preferred material is ferrous sulfate.
The iron ferric source that can be used to create these compounds can include any food grade ferric salt, such as ferric sulfate, ferric chloride, ferric nitrate, ferric acetate, ferric malate, ferric ammonium acetate, ferric formate, ferric oxide, ferric hydroxide or mixture thereof. The most preferred of these is ferric sulfate.
Elemental iron also can be used as iron source to create these compounds.
The source of phosphates that can be used to create these compounds can include any food grade orthophosphate salt, such as mono-, di or tri-sodium, potassium, ammonium, magnesium or calcium phosphates, as well as phosphoric acid, or mixture thereof. Preferably, phosphoric acid is used.
The source of ammonium that can be used to create these compounds can include any food grade ammonium source, such as ammonia water, ammonium hydroxide, ammonium acetate, ammonium bicarbonate, ammonium carbamate, ammonium carbonate, ammonium chloride, ammonium lactate, ammonium sulfate, ammonium ferrous sulfate, ammonium ferric sulfate, ammonium nitrate, mono-, and di-basic ammonium phosphates, or mixture thereof. Preferably, ammonium hydroxide is used.
The inorganic compounds, which are the object of this invention, may conveniently be formed by the interaction of a suitable iron source (II or III) with a suitable source of phosphates (phosphoric acid or phosphate salt with any of the abovementioned acids), and then with any suitable source of ammonia. For example, the inorgan

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