ES2526471A2 - Fatty semi-processed product, method for obtaining same and use thereof in the food industry - Google Patents

Abstract

The invention relates to a solid or semi-solid fatty semi-processed product, to the method for obtaining same, and to the use thereof in the food industry as a substitute for animal fats, in order to obtain processed food products that are free from animal trans fatty acids and saturated fats, for example such as to obtain meat-based food products, hamburgers, cured meats, sausages and the like, products of the grain industry and derivatives, such as industrial baked goods, etc., the semi-processed product including non-hydrogenated unsaturated vegetable oils, vegetable proteins, casein and water.

Description

SEMIELABORATED FAT PRODUCT, PROCEDURE FOR OBTAINING AND USING THE SAME IN THE FOOD INDUSTRY This invention refers to a semi-processed fatty product, solid or semi-solid, to its method of obtaining, as well as to the use thereof in the food industry as a fat substitute animals, in order to obtain processed food products free of saturated fats and trans fatty acids of animal origin, for example to obtain meat food products, in hamburgers, cured sausages, sausages and the like, products of the cereal and derivatives industry, for example, industrial pastry, etc.10 In this regard, and according to the Annex of Regulation EC 1924/2006 of the European Parliament and of the Council of December 20, 2006 on nutritional and health claims of food (30.12.2006, Official Journal of the European Union, L 404/9), it can only be declared that a food does not co It has saturated fats, as well as any other declaration that may have the same meaning for the consumer, if the sum of saturated fats and trans fatty acids is not greater than 0.1 g per 100 g for a solid food. the concepts "semi-finished food" or "semi-finished product" are used as synonyms and have the usual meaning known in the food industry, that is those foods or products of plant or animal origin that are used as raw material and need to be subjected to a treatment of a physical nature and / or chemical and / or biological through the addition of other substances allowed in the food industry. Similarly, the terms "trans fats" or "trans fat 25" (AGT) are used interchangeably, referring to fatty acids with double bonds in trans position. In this regard, industrially produced trans fatty acids, generally known as "trans fats", have been defined by the Joint FAO / WHO Codex Alimentarius Commission as "unsaturated fatty acids containing one or more isolated double bonds (unconjugated) in a 30 trans configuration ”. The concepts "saturated fats" or "saturated fatty acids" are used interchangeably here with their usual meaning well known in the art. Trans fats are formed during the partial hydrogenation of liquid vegetable oils to form semi-solid fats that are used in margarines, oils for cooking. and many processed foods. AGTs are also generated "naturally" in small quantities by the action of microorganisms present in the stomach of ruminants (for example, cattle, sheep and goats); However, this form of TFA supposes a minimum contribution (<0.5% of the total energy) of the total amount of trans fat consumed. Various studies have shown that these fatty acids raise LDL cholesterol. They also tend to accumulate in various tissues, such as the heart muscle, promoting cardiovascular disorders. It is well known that saturated fats and trans fatty acids raise blood LDL cholesterol levels, increasing the risk of heart disease. Dietary cholesterol also contributes to the development of heart disease. Unsaturated, monounsaturated and polyunsaturated fats do not raise LDL cholesterol and are beneficial if consumed in moderation. It is therefore advisable to choose foods low in saturated fat, trans fatty acids and cholesterol, as part of a healthy diet. FAO recommends that the energy obtained from fat constitutes less than 30 percent of total energy consumption (35 percent if the person is active) and that less than 10 percent of energy comes from saturated fat, as well as increasing the proportion of fats based on polyunsaturated fats (WHO, Technical Report Series, TRS, 916) .25 There is much evidence that the elimination of TFAs from food is an economical way to protect health and prevent cardiovascular disease (Hu FB, Stampfer MJ, Manson JE, Rimm E, Colditz GA, Rosner BA, Hennekens CH, Willett WC, Dietary fat intake and the risk of coronary heart disease in women. N Engl JMed 1997; 337: 1491-1499), in addition to what it is about an industrially feasible procedure. They are ongoing already projects to phase out AGTs, including regulatory measures that have been taken in several European countries and voluntary decisions of some US industries (for example, Kraft Foods, Wendy's), European (for example, Unilever), Brazil, Argentina and , in recent times, from New York City (Griel AE, Kris-Etherton PM. Beyond 5saturated fats: The importance of the dietary fatty acid profile on cardiovascular disease. Nutr Rev 2006; 64: 257-262). AGTs are formed during the partial hydrogenation of liquid vegetable oils to obtain semi-solid fats that are used in margarines, cooking oils and many processed foods, which are attractive to the industry due to their prolonged shelf life, their greater stability during frying and their greater solidity and malleability for use in confectionery products and sweets.15 The main raw material for the industrial hydrogenation process is oils Vegetables and fish. Industrial hydrogenation makes it possible to transform these liquids, unstable and susceptible to oxidation, into more stable solid or semi-solid products and easier handling, very suitable as substitutes for animal butter or tallow (rendering products [industrialized fats]), and particularly of the butter. Hydrogenation is carried out under pressure and temperature, and in the presence of a metal catalyst (usually nickel), bubbling hydrogen gas in the oil. Under these conditions, the double bonds of unsaturated fatty acids undergo several structural modifications: the double bond can be hydrogenated and transformed into a single (saturated) bond; the location of the double bond can be modified (formation of positional isomers); and the double link can change its spatial configuration giving rise to AGT. When the hydrogenation is complete, a 100% saturated and high melting point product is obtained, which does not have cis and trans isomers. When hydrogenation is carried out under controlled conditions (partial hydrogenation), a mixture of saturated, monounsaturated, and small amounts of polyunsaturated fatty acids is obtained, with cis and trans isomerism. The AGT that is formed in greater proportion in the partial hydrogenation of vegetable oils is C18: 1. In fish oils a much more complex variety of trans isomers is formed due to the high degree of polyunsaturation of their fatty acids (up to six double bonds) and the length of their chain (up to C20 and C22) .5 In addition, the refining processes to which The oils are subjected to improve their organoleptic characteristics, which include high temperature deodorization (200 ° C-230 ° C) and vacuum, they are also a source of AGT formation. Consequently, virtually all household oils contain small amounts of AGT (0.1% -1%) (Deneke P., About formation 10of trans fatty acids during deodorization of rapeseed oil, EurJMed Res 1995; 17: 109-114 ). Frying, both industrial and domestic, which implies temperatures of up to 180 ° C for prolonged times constitutes another source of AGT formation when the oils used are relatively polyunsaturated. The impact of frying processes on the formation of AGT is particularly important in the institutional diet and fast food industry. The methodology developed so far to reduce the content of AGT in hydrogenated products is based on the use of oils with high degree of saturation in a natural way (such as palm oil or palm kernel oil) or vegetable oils 20 (soy, sunflower, cotton, corn) previously hydrogenated, until reaching a high degree of saturation. In both cases, the level of AGT is minimal or non-existent. These oils are mixed with relatively unsaturated refined vegetable oils (sunflower, soy, corn) that also originally have minimum amounts of AGT (List GR. Decreasing trans and saturated fatty acids content in 25food oils. Food Technol 2004; 58: 23-31 ). The mixture is subjected to a transesterification process (Haumann BF. Tools: hydrogenation, interesterification, Inform 1994; 5: 668-679), which consists in the exchange of fatty acids between the triacylglycerides that form both types of oils (highly hydrogenated and not hydrogenated). This process can be performed in chemical or enzymatic form. The chemical process is of lower cost but produces mixtures of triacylglycerides of variable composition, since it is a random fatty acid exchange process. The enzymatic procedure, which is what is being imposed on Developed countries, it is of higher cost, but allows to obtain products with very specific composition and properties, according to the requirements of the producer (Pszczola DE. Fats in transition. Food Technol 2004; 58: 52-63). As an alternative to transesterification , the composition of some oils categorized as consumer goods (commodities), such as soybean oil, sunflower oil, etc., has been modified by selection or genetic modification, obtaining AGT-free oils with high thermal stability. These oils can be used for the manufacture of margarines of the VTF type or in industrial and domestic frying or baking processes. This is the case of soybean oil with high concentration of oleic acid and low concentration of linolenic acid (mid-oleic / low-linolenic SBO), soybean oil with low content of linolenic acid (low-linolenic SBO), oil of soybean with minimal content of linolenic acid (ultra low-linolenic SBO), sunflower oil with the highest content of oleic acid (mid-oleic SFO), sunflower oil with high content of oleic acid (high-oleic 15SFO), fractions of palm and palm kernel oil with a low content of saturated fatty acids, etc. The oleochemical industry has incorporated new procedures and a wide variety of products for the development of fatty substances with low AGT content and for the manufacture of food with minimal AGT content.20 In US Patent 7,105,195 B2, “Reduced trans fat product ", A fatty product with reduced trans fat content is described which includes an oil or fat of animal and / or vegetable origin and an amount of cyclodextrin, from 0.001 to 75% with respect to said oil or fat, mixed therewith, to obtain a fatty product for use in processed or semi-finished products, containing the betaglucan fatty product. US 2010/0151079 refers to a process for the preparation of margarine by mixing one or more of palm oil, soybean and hydrogenated oils to obtain an oily fraction that is subsequently treated by enzymatic interesterification. 30 An object of the present invention is, therefore, to provide a semi-processed, solid or semi-solid fatty product, substitute for animal fats free of saturated and trans fats, which allows obtaining heart-healthy food products and equally free of saturated fats, that is to say where the sum of saturated fats and trans fatty acids is not more than 0.1 g per 100 g of the meat product. Another object of the invention is a process for obtaining said semi-finished solid or semi-solid fatty product, hereinafter "semi-finished product", as well as its use in the food industry as a substitute for animal fats, in order to obtain processed food products free of saturated fats and trans fatty acids of animal origin, for example to obtain meat food products, in hamburgers, cured sausages, sausages and the like , products of the cereals and derivatives industry, for example pastry industrial, etc. To this end, and in accordance with the first object, the invention provides a semi-finished product, fatty, solid or semi-solid, substitute for animal fats and free of saturated fats and trans fats, the semi-finished product comprising non-hydrogenated unsaturated vegetable oils, proteins vegetable, casein and water.Preferably, unsaturated vegetable oils are not included in a proportion between 25 and 40% by weight with respect to 100 g of semi-finished product.Preferably, vegetable proteins are included in a proportion of 25 and 40% by weight with respect to 100 g of semi-finished product. Preferably, casein is included in a proportion between 25 and 2540% by weight with respect to 100 g of semi-finished product. Preferably unsaturated vegetable oils Hydrogenates included in the semi-finished product are rich in omega 3, omega6 and omega9 fatty acids, being spice preferably a mixture of oil deolivay of High oleic sunflower oil, particularly preferably a mixture of olive oil: 1: 4a 1: 1 high oleic sunflower oil. In an embodiment of the invention, these oils may consist of macerations in said aromatic plant oils and / or medicinal products and / or modifiers, in the form of a stable emulsion, to provide the food product5 which includes the semi-finished product of the invention with desired aromatic, organoleptic or medicinal characteristics.Preferably, the vegetable proteins included in the semi-processed product consist of soy proteins, proteins of other cereal legumes, for example of beans and / or chickpeas and / or rice and combinations thereof.10 In an embodiment of the invention, these vegetable proteins consist of a 75:25 mixture of soy proteins: other legumes. In another embodiment, these vegetable proteins consist of a 75: 15: 10 mixture of soy proteins: beans: chickpea. Optionally, the semi-finished product may include natural rice starch as a substitute for casein or combined with it, keeping in everything case for this component the amount quoted above relative to casein. The semi-solid or semi-solid product is used as such, being able to be kept refrigerated or frozen until it is used.According to a second object of the invention, there is provided a process for obtaining the semi-finished solid or semi-solid fatty product described, by a combination of techniques and Enzymatic treatments with cyclodextrins, respecting the WHO directive that advises a maximum dose per person <6 mg / Kg / day. The procedure includes operational stages of emulsion, differential heat treatment and treatment with electromagnetic waves from low frequencies to ultrasonic frequencies. Specifically, a high-speed pre-emulsion stage is applied using piezoelectric magneto-stringers with ultrasonic generators in a mixture of vegetable oils, vegetable proteins and Casein, if necessary together with stabilizers and solubilizers of cyclodextrin antioxidants, subjecting this emulsion to a differential heat treatment process between 35 and 125 ° C, depending on the vegetable proteins used. The time of the operating cycle is variable and depends on the components to be treated, as well as the final food product that includes the semi-finished product of the invention. The detection of the appropriate emulsion point is carried out by means of corresponding sensors and continuously to allow both the automation of the process as the registration of its parameters and in order to achieve the necessary traceability in this type of operations. A third object of the invention is the use of the semi-finished product described above in the food industry as a substitute for animal fats, as well as the production of processed food products free of saturated fats and trans fatty acids of animal origin, for example to obtain meat food products, in hamburgers, cured sausages, sausages and the like, products of the cereal and derivative industry, for example industrial bakery, etc. For the purpose of obtaining a food product, in general the semi-finished product of the invention is used in a proportion that ranges between 10 and 70% by weight, constituting the rest, up to 100% by weight with respect to the foodstuff final product, the particular raw material that defines it, for example lean meat in the case of burgers or cured sausages. To obtain the product final food, the usual procedures and devices that are used lycans for conventional food products, replacing saturated animal fats with the semi-finished product of the invention. Thus, there is no reference in this document to any particular procedure for obtaining a determined food product, since the use of the semi-finished product does not modify the processing steps of the final product nor, consequently, it requires modifying any machine of those usually used in conventional processing. 30 In an exemplary and non-limiting embodiment of the invention, a slurry mixture and / or other legumes are subjected to hydro-maceration for the time necessary for extraction, which depends both on the characteristics of the raw material to be treated and on those that you want to obtain for the semi-finished product to be used later. In this particular case, this time is about 12 hours. For its part, the vegetable protein is pasteurized at 70 ° C-85 ° C for 0.1-6 minutes. The vegetable protein, the non-hydrogenated vegetable oil together with the cyclodextrins are subjected to emulsion using a machine that operates with variable speed and is capable of being programmed, according to the data collected from the evolution of the emulsion. In this example, 10 between 100 and 25,000 r.p.m. The mixture is stirred until the periodic tests carried out allow maintaining the stabilization of the emulsion for a minimum of 30 minutes without unfolding. Ultrasonic generators are used in this part of the process in order to achieve an emulsion of the highest quality and uniformity. The vegetable protein, casein and the mixture with the oils used are then crushed, with the mixing temperature ranging between 20ºC and 105ºC. The proportions of the components are those already mentioned above. The mixers used are the usual ones of vanes and the speeds are variable and programmable, for example between 100 and 25,000rpm. Then the resulting product is homogenized in a standard homogenizer and with variable and programmable pressure, for example between 1 and 3 atmospheres. The homogenized mixture obtained is heated by a programmed delay and for the required time to 20-105 ° C and, in this particular example, it is coagulated with a calcium sulfate, magnesium chloride, calcium chloride and 25glucono-delta-lactone in a 1: 1 ratio: 1: 1, the total amount of these components being between 2 and 5% with respect to the semi-finished product.The fruit set is filtered, centrifuged or pressed, for example under a pressure of 2 kg / cm2. Finally, it is stabilized by heat treatment in a temperature and humidity chamber controlled by a programmer. 30 The semi-finished product obtained is then used as a substitute for the saturated animal fats usually provided during the conventional processes of manufacturing food products. For example, if it is a matter of obtaining a delonganized meat product as a food product, traditionally composed of approximately 70% lean meat of 5cerdo, the remaining 30% being saturated animal fats that are provided in the form of jowls or bacon, it is used here the latter proportion of the semi-finished product of the invention replacing said animal fat.

Claims (1)

CLAIMS 1. Semi-solid or semi-solid fatty semi-finished product, characterized in that it comprises unsaturated non-hydrogenated vegetable oils, vegetable proteins, casein and water. 2. Fat semi-finished product according to claim 1, characterized in that the non-hydrogenated unsaturated vegetable oils are included in a proportion of 25 and 40% by weight with respect to 100 g of the semi-finished product. 3. Solid fatty semi-finished product according to the preceding claims, characterized in that the non-hydrogenated unsaturated vegetable oils 10 are a mixture of olive oil and high oleic sunflower oil. Semi-processed fatty product according to claim 3, characterized in that the unsaturated vegetable oils are a mixture of olive oil: high oleic sunflower oil 1: 4 to 1: 1.5. Semi-processed fatty product according to claim 1, characterized in that the vegetable oils unsaturated unsaturated consist of n macerations in said oils of aromatic and / or medicinal plants and / or modifiers, in the form of a stable emulsion, to provide the food product that includes the semifinished product of the invention with desired aromatic, organoleptic or medicinal characteristics.206 Fatty semi-processed product according to claim 1, characterized in that the vegetable proteins are included in a proportion between 25 and 40% by weight with respect to 100 g of the semi-finished product.7.Greasy semi-finished product according to claim 1 or 6, characterized in that the proteins Vegetables are soy proteins, other legumes, cereals and combinations thereof. 8. A semi-finished fat product according to claim 7, characterized in that the vegetable proteins are a 75:25 mixture of soy proteins: other legumes. 9. Fatty semi-finished product according to claim 7, characterized in that the vegetable proteins are soy and bean proteins, 5garbanzos, cereals, as well as combinations thereof.10.Greasy semi-finished product according to claim 9, characterized in that the vegetable proteins are a 75:15:10 mixture of soy proteins: beans: chickpea. 11. A semi-processed fatty product according to claim 1, characterized in that the casein is included in a proportion between 25 and 40% by weight with respect to 100 g of the semi-finished product.12.Greasy semi-finished product according to claims 1 and 11, characterized in that it includes natural rice starch combined with casein.13.Procedure for obtaining a semi-processed fatty product 15 according to claims 1 to 12, by a combination of techniques and treatments enzymatic with cyclodextrins, including emulsion operational stages, differential heat treatment and treatment with electromagnetic waves characterized in that a high-speed pre-emulsion stage is applied using magneto-stringers with ultrasonic generators, subjecting the emulsion to a differential heat treatment process between 35 and 125 ° C, continuously detecting the appropriate point of the emulsion by means of corresponding sensors. 14. Use of the semi-finished product according to claims 1 to 12 in the food industry as a substitute for animal fats, for obtaining food products. 15. Use of the processed product according to claim 14 in the food industry as a substitute for animal fats provided for the production of meat food products. 16. Use of the semi-finished product according to claims 14-15 in a proportion between 10 and 70% by weight, constituting the remainder, up to 5% by weight with respect to the food-end product, the particular raw material that defines it, for example lean meat in the case of meat food products.17.Use of the semi-finished product according to claim14 in the food industry as a fat substitute Animals provided for the procurement of products from the cereals and derivatives industry 18 Food product that includes a semi-finished product according to any of claims 1 to 12.