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    • 专利摘要:
    The present invention relates to a low-sugar, easily digestible chocolate product for consumers who are sensitive to dietary carbohydrates, such as lactose or fructans. More specifically, the present invention relates to a composition for producing a sweet-tasting chocolate product containing less than 1% poorly absorbable, fermentable oligo-, di-, monosaccharides, or related alcohols, collectively known as FODMAPs (fermentable) through the human small intestine oligo-, di-, monosaccharides and polyols), wherein the sweet taste is provided by a sweetener selected from a group consisting of mogroside-enriched monk fruit extract, isomaltulose, sweet-tasting protein, or any combination of the above.
    公开号:BE1025081B1
    申请号:E2015/0272
    申请日:2015-12-17
    公开日:2018-10-23
    发明作者:Felix Verdegem
    申请人:Cavalier;
    IPC主号:
    专利说明:

    Priority date:
    International Classification: A23G 1/40, A23L 27/30
    Application number: BE2015 / 0272
    Date of submission: 17/12/2015
    Holder:
    CAVALIER
    9900, EEKLO
    Belgium
    Inventor:
    VERDEGEM Felix 9900 EEKLO Belgium
    Easily digestible chocolate product
    The present invention relates to an easily digestible low sugar chocolate product for consumers sensitive to dietary carbohydrates, such as lactose or fructans. More specifically, the present invention relates to a composition for producing a sweet-tasting chocolate product containing less than 1% poorly absorbable, fermentable oligo, di, monosaccharides, or related alcohols, which are collectively known as FODMAPs (fermentable (oligo-, di-, monosaccharides and polyols), wherein the sweet taste is provided by a sweetener selected from a group consisting of mogroside-enriched monk fruit extract, isomaltulose, sweet tasting protein, or any combination of the above.
    BELGIAN INVENTION PATENT
    FPS Economy, K.M.O., Self-employed & Energy
    Publication number: 1025081
    Filing number: BE2015 / 0272
    Intellectual Property Office
    International Classification: A23G 1/40 A23L 27/30
    Date of grant: 23/10/2018
    The Minister of Economy,
    Having regard to the Paris Convention of 20 March 1883 for the Protection of Industrial Property;
    Having regard to the Law of March 28, 1984 on inventive patents, Article 22, for patent applications filed before September 22, 2014;
    Having regard to Title 1 Invention Patents of Book XI of the Economic Law Code, Article XI.24, for patent applications filed from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 on the filing, granting and maintenance of inventive patents, Article 28;
    Having regard to the application for an invention patent received by the Intellectual Property Office on 17 December 2015.
    Whereas for patent applications that fall within the scope of Title 1, Book XI, of the Code of Economic Law (hereinafter WER), in accordance with Article XI.19, § 4, second paragraph, of the WER, the granted patent will be limited. to the patent claims for which the novelty search report was prepared, when the patent application is the subject of a novelty search report indicating a lack of unity of invention as referred to in paragraph 1, and when the applicant does not limit his filing and does not file a divisional application in accordance with the search report.
    Decision:
    Article 1
    CAVALIER, Burgemeester Lionel Pussemierstraat 46, 9900 EEKLO Belgium;
    represented by
    VAN DAELE Maarten, Mechelsesteenweg 32 box 103, 2018, ANTWERP;
    a Belgian invention patent with a term of 20 years, subject to payment of the annual taxes as referred to in Article XI.48, § 1 of the Code of Economic Law, for: Easily digestible chocolate product.
    INVENTOR (S):
    VERDEGEM Felix, Burgemeester Lionel Pussemierstraat 46, 9900, EEKLO;
    PRIORITY :
    BREAKDOWN:
    Split from basic application:
    Filing date of the basic application:
    Article 2. - This patent is granted without prior investigation into the patentability of the invention, without warranty of the merit of the invention, nor of the accuracy of its description and at the risk of the applicant (s).
    Brussels, 23/10/2018,
    With special authorization:

    BE2015 / 0272
    Easily digestible chocolate product
    Technical area
    The present invention relates to an easily digestible low sugar chocolate product for consumers sensitive to dietary carbohydrates such as lactose or fructans. More specifically, the present invention relates to a composition for the production of a sweet tasting chocolate product comprising less than 1% poorly absorbable human small intestine fermentable oligo, di, monosaccharides, or related alcohols, which are known in common as FODMAPs (fermentable, oligo, di, monosaccharides and polyols), wherein the sweet taste is provided by a sweetener selected from a group consisting of mogroside-enriched monk fruit extract, isomaltulose, sweet tasting protein, or any combination of the above.
    Background of the invention
    Regular consumption of sugar and sugary foods is currently one of the leading causes of obesity and a risk factor for associated pathologies, such as type 2 diabetes, cardiovascular disease, various cancers, inflammation, and related metabolic disorders, including reduced glucose tolerance, insulin hypersensitivity , dyslipidemia, increased uric acid in the blood, etc.
    The aforementioned and more medical implications of sugar consumption are putting increasing pressure
    BE2015 / 0272 chocolate and confectionery manufacturers to reduce or even completely replace the sucrose content in their products.
    However, effective implementation of the above requires significant changes in regular chocolate formulation, which typically contains 40-60% sucrose that will need to be replaced. Various sugar substitutes are known, and those approved for use in foods include polyols, fillers and non-sugary intense sweeteners.
    Polyols are sugar alcohols of sweeteners that are similar to (usually lower than) sucrose, but in contrast they are not fully absorbed into the bloodstream by the small intestine, resulting in a smaller change in blood glucose levels and thus making the products safer for diabetics. Popular polyols include, e.g., isomalt, lactitol, maltitol, xylitol, erythritol. The fillers are usually fermentable fibers composed of chains comprising simple sugars and include, e.g., maltodextrin, polydextrose, oligofructose, or inulin. For the most part, they cannot be broken down by human hydrolases, so the human body cannot excrete them like normal carbohydrates. Finally, intense sweeteners include a group of chemically diverse compounds that are much, and even up to a hundred times sweeter than sucrose; they include, e.g., stevia-derived glycosides, aspartame, sucralose, neotame, acesulfame potassium, thaumatin and saccharin.
    BE2015 / 0272
    As with all food products, developing a formulation to replace sugar with an alternative sweetener is a complex process. In the specific case of chocolate, the finished product is also expected to meet not only high consumer expectations for sweeteners, but also for texture, mouthfeel, melt-in-the-mouth quality, creaminess, richness of taste and even physical properties such as crispness or shine. Therefore, replacing sugar with an alternative sweetener often means reworking the entire composition to achieve the desired balance between sweeteners and other end product properties.
    While polyols generally have similar bulk properties to sucrose, and therefore can theoretically replace sucrose in volume-by-volume amounts, in practice their sweetness is not strong enough, so they must largely be provided in a blend with an intense sweetener.
    Intense sweeteners alone often have a distinctly different mouthfeel and can have a very unpleasant aftertaste, so they usually have to be mixed with fillers to obtain the satisfying texture sensation and to camouflage off-flavors.
    However, the problem with polyols and fillers is that, as recently demonstrated, due to fermentation by the human gut flora and their osmotic effects, they tend to have abdominal pain, a
    BE2015 / 0272 bloating, flatulence, diarrhea and generally altered bowel function and stomach problems causing a general feeling of discomfort (Barrett et al. 2010; Ong et al. 2010). Poorly absorbed short-chain carbohydrates and sugar alcohols with such adverse properties are commonly known as FODMAPs, or fermentable oligosaccharides, disaccharides, monosaccharides and polyols (Gibson and Shepherd, 2005; Shepherd and Gibson, 2006). The most commonly used FODMAPs in the food industry are, e.g., fructans, fructose, galactooligosaccharides, and sugar polyols.
    Certain individuals experience the above-mentioned symptoms of discomfort even in single-serving doses, and the intensity of the symptoms is greatly enhanced in individuals with functional gastrointestinal disorders (FGIDs), such as irritable bowel syndrome (IBS), fructose malabsorption, or functional dyspepsia. In fact, recent research (Biesiekierski et al., 2013) has suggested that the FODMAPs and not gluten are the biggest cause of a fairly common condition currently known as gluten sensitivity without celiac disease (NOGS), which, unlike celiac disease (that is an autoimmune disease triggered by the protein gluten)
    became like one innate immune response on gluten, Which results in gastro- -intestinal issues and inflammation. A other FODMAP that is common in chocolate lactose - the sugar that is distracted from solid milks that in white chocolate and milk chocolate legal present must be.
    B E2015 / 0272
    For example, the legal minimum for solid milk in the US is 14%, while most formulations often contain much more. The minimum 14% solids from whole milk can provide up to about 7 g of lactose per 100 g of milk chocolate; this is sufficient to cause gastrointestinal problems in lactose sensitive patients.
    Thus, it is an object of the present invention to provide a sweet-tasting, low-sugar composition for a chocolate product that is easily digestible for FODMAP-sensitive individuals, wherein the FODMAP content is not more than 1% by weight and wherein a non- FODMAP sweetener is provided, said sweetener being selected from the group consisting of monk fruit extract, isomaltulose, sweet tasting protein, or any combination of the above. The present invention relates to compositions for easily digestible low sugar chocolate products, such as chocolate bars, confectionary fillings therefor, chocolate litter, chocolate powders for drinks, or chocolate drinks, and the like, which would be suitable for calorie-restricting consumers, consumers suffering from obesity or diabetes, and further consumers who are hypersensitive to lactose, polyol sweeteners, or poorly absorbable short-chain carbohydrates present in other artificial sweeteners and fillers. The present invention also provides compositions for producing a sugar-free chocolate product, containing no more than 1 wt% FODMAPs and
    BE2015 / 0272 no more than 1% by weight of sucrose or glucose is present, and said product comprises a sweetener selected from the group consisting of monk fruit extract, isomaltulose, sweet tasting protein, or any combination of the above, and may be further insoluble non-fermentable fiber, such as cellulose, sterculia, or methycelullose, or slow fermentable fiber, such as lignin.
    Reducing sugars and lactose can lead to alternative sweetener levels of over 60%. Such large sweetener additives exacerbate known chocolate production problems, including increased viscosity during production and deterioration of texture, mouthfeel and taste. However, the prior art provides examples of chocolate compositions for food with alternative sweeteners.
    One example includes WO 2007 059 644, which describes plain chocolate compositions in which at least 30 wt% sucrose has been replaced with a combination of fermentable short-chain carbohydrate fillers including dextrin, inulin and fructooligosaccharide (FOS). Another example is WO 2006 015 880, in which sugar replacement includes inulin, polydextrose and polysaccharide resistant maltodextrin as a filler fiber and a high intensity sweetener. A low-cariogenic chocolate composition in which more than 1% fermentable non-milk sugar and a substantial amount of lactose in the final product have been replaced by polyols (even up to
    65%) and fillers is described in
    WO 1995 004 469.
    Further chocolate-related
    BE2015 / 0272 examples include EP 0 512 910 and EP 0 317 917; both applications suggest polydextrose as a sugar substitute.
    As can be deduced from these and other prior art documents, replacement or elimination of sugar in chocolate compositions has traditionally been done with polyols and fermentable poorly absorbable short-chain carbohydrates that are part of the FODMAP compounds. Since the latter cause gastrointestinal problems and complications in many individuals, the aim of the present digestible invention was to provide sweet and easy chocolate product compositions without using sugars or
    FODMAPs without loss of product usability and consumer-desired properties such as texture, melt-in-the-mouth quality and richness of flavor.
    Summary of the invention
    The present invention is defined in the accompanying independent claims.
    Preferred embodiments are defined in the dependent claims. More specifically, the present invention relates to a composition for producing a chocolate product, said composition comprising a non-sucrose non-glucose sweetener and at least 20 wt% fat, wherein
    no more than 1% by weight of fermentable oligodi-monosaccharide and polyols (FODMAPs) is present, wherein said non-sucrose non-glucose sweetener is selected from the group consisting of:
    BE2015 / 0272
    a. Monk fruit extract enriched with mogroside;
    b. isomaltulose;
    c. sweet tasting protein;
    d. any combination of the aforementioned sweeteners.
    In a preferred embodiment, the composition of the present invention comprises 0.1% to 10% by weight of the mogroside-enriched monk fruit extract content or the sweet tasting protein content, and / or between 1-50% by weight of isomaltulose.
    In specific embodiments of the foregoing embodiments, the sweet-tasting protein is selected from the group consisting of thaumatin, monellin, mabinline, pentadine, brazzein, curculin, miraculin, and is preferably thaumatin.
    In further preferred embodiments of the present the invention, the composition may be other additions such as fiber sources, milk protein,
    cocoa powder or extract, various flavor extracts, water-regulating compounds, etc. as long as their composition does not exceed the maximum of 1% FODMAP content in the final product.
    For example, in a preferred embodiment, the composition of the present invention further comprises a fiber source selected from one of the following
    a. insoluble non-fermentable fiber, such as cellulose, sterculia or methycelullose;
    b. insoluble slow-fermentable fiber such as lignin;
    BE2015 / 0272
    c. nuts selected from the group consisting of whole nuts, chopped nuts, ground nut powder, or a shelled or chopped pendant thereof;
    d. any combination of the higher fiber sources
    In further aspects particularly noted suitable for the production of a milk chocolate or white chocolate product, the present invention may further comprise the composition of a protein source to mimic the milk protein component, said protein source comprising no more than 1 wt% lactose and no more than 1 wt% other FODMAP, preferably selected from
    a. milk protein extract or isolate;
    b. casein / whey mixtures;
    c. Soy protein;
    d. any combination of the above protein sources.
    In another aspect, the present invention provides methods of producing chocolate products comprising the step of preparing each of the compositions of the present invention and preparing a chocolate product comprising any of said compositions.
    In a final aspect, the present invention provides the use of a composition according to the invention for producing a chocolate product, said product preferably being selected from
    a. a solid chocolate product such as a bar or a tablet;
    b. filler for a chocolate product;
    c. chocolate litter;
    BE2015 / 0272
    d. chocolate drink;
    e. chocolate powder.
    Definitions
    The term chocolate product (or chocolate), as used herein, refers to any confectionery made from at least cocoa seeds, usually with sweetener and flavoring. As used herein, the term chocolate product is to be interpreted as referring to any type of chocolate mass (milk, dark or white), chocolate coating, chocolate filling, soft chocolate chunks, chocolate litter, etc.
    for use in any desired application (confectionery, bakery, chilled or frozen desserts such as ice cream,
    Dark chocolate products typically include a mixture of cocoa extract, cocoa powder, cocoa butter, cocoa butter equivalents and / or cocoa butter substitutes, sugar and / or sugar substitutes, and one or more emulsifiers.
    They can also include milk fat.
    Milk chocolate products also include milk fat solid milk (such as milk powder). White does not include cocoa extract or cocoa powder but together with chocolate it includes milk chocolate, milk fats and solid milks. All chocolate products can include additional ingredients, such as flavors, dyes and / or texturizers. They can also include so-called inclusions such as nut products, fruit products, cereal products, etc. Certain chocolate products can also include water.
    As used herein, the term FODMAP is to be interpreted as any compound that
    BE2015 / 0272 belongs to the group of fermentable, oligo-, di-, monosaccharides and polyols comprising short-chain carbohydrates defined as oligosaccharides, disaccharides, monosaccharides and related alcohols that are poorly absorbed in the small intestine. These include short chain (oligo) saccharide polymers of fructose (known as and galactose (galactans), disaccharides (lactose), monosaccharides (fructose), and sugar alcohols (polyols) such as sorbitol, mannitol, isomalt, xylitol, maltitol, erythritol, or lactitol.FODMAP 'are naturally present in large amounts in honey, corn syrup solid high fructose corn syrup, molasses or brown sugar, spelled, kamut, wheat flour in any form, hydrogenated starch hydrolysates, guar gum. Popular carbohydrate examples of FODMAPs include many fillers such as polydextrose , maldextrins, inulin, FOS, GOS, etc.
    As used herein, the term monk fruit extract or mogroside-enriched monk fruit extract is to be interpreted as being a sweet fruit extract Siraitia grosvenorii, also known as monk fruit or luo / lo han guo / kuo, wherein said extract is to be interpreted as including an enriched fraction of triterpene glycosides called mogrosides which are largely uncontaminated with FODMAP. The pure mogroside mixture extracted from the S.
    grosvenorii fruit is 300 times sweeter than sugar. Pure mogroside-5 can be up to 400 times sweeter. An example
    BE2015 / 0272 of mogroside purification procedure is found, for example, in WO 2012 103 074.
    As used herein, the term isomaltulose (6-0-α-D-glucopyranosyl-D-fructose) refers to a disaccharide naturally occurring in honey and sugarcane. It is as sweet as sucrose and tolerated as sucrose. Like sucrose, it is completely digested and offers the same caloric value of about 4 cal / g. However, unlike sucrose, isomaltulose is low-glycemic and low-insulinic. The effect of isomaltulose is that glucose is absorbed into the blood at a low rate, preventing high peaks and sudden drops in glucose levels and thus in insulin levels. This leads to a more balanced and long-lasting energy supply in the form of glucose.
    The term sweet tasting protein is to be interpreted as any purified or otherwise isolated protein that can create the olfactory sensation of sweet taste when exposed to taste receptors in the human oral cavity. At present, six sweet tasting proteins are known, all identified in tropical fruits. They include thaumatin, monellin, mabinline, pentadine, brazzein and curculin, and a seventh protein, miraculin, which in itself is not a sweet tasting protein, but rather a taste modifier.
    Detailed description of the invention
    The present invention relates to a composition for producing a chocolate product, said composition comprising a
    BE2015 / 0272 non-sucrose non-glucose sweetener and at least 20 wt% fat, wherein
    no more than 1% by weight of fermentable oligodi-monosaccharide and polyols (FODMAPs) is present, wherein said non-sucrose non-glucose sweetener is selected from the group consisting of:
    e. mogroside-enriched monk fruit extract;
    f. isomaltulose;
    g. sweet tasting protein;
    h. any combination of the aforementioned sweeteners.
    As is readily apparent to anyone skilled in the art, the fat suitable for preparing a chocolate product composition can be selected from cocoa butter, chocolate butter, coconut oil, olive foil, soybean oil, sunflower oil, rapeseed oil, cottonseed oil, corn oil, safflower oil , groundnut oil, sesame oil, palm oil, butterfat, butter,
    In one embodiment, buttercream, and derivatives thereof.
    Embodiment according to the foregoing of the present invention, the sweet tasting protein is selected from the group consisting of thaumatin, monellin, mabinline, pentadine, brazzein, curculin, miraculin, and is preferably thaumatin.
    In the preferred embodiment, due to the intense sweetness generally provided by the sweet tasting proteins, the sweet tasting protein content is preferably between 0.1 and 10 wt% w / w of the final composition.
    For the same reason, in an alternative embodiment, it includes mogroside enrichment
    B E2015 / 0272 monk fruit extract or, simply, the monk fruit extract also preferably between 0.1 and wt% of the final composition.
    Since isomaltulose is characterized by a sweetener content comparable to that of sucrose, in yet another embodiment of the present condition, the isomaltulose content, on the other hand, preferably comprises between 1 and 50% by weight of the final composition.
    In a further highly preferred embodiment, the composition of the invention further comprises fiber which is not a non-fermentable fiber or a slow fermentable fiber, such as lignin, and thus is almost unprocessed by the intestinal flora and does not cause flatus and other gastrointestinal intestinal discomfort.
    While there is no universally accepted definition for dietary fiber, it is generally agreed that this term includes carbohydrates that are not hydrolyzed or absorbed in the upper gastrointestinal tract. Dietary fiber generally consists of long-chain polysaccharides and lignin (a cross-linked polymer of plant alcohols) that are not digested by intestinal enzymes in humans, but can undergo bacterial fermentation in the large intestine. The compounds considered as dietary fiber are generally divided into two groups: water-soluble and water-insoluble. There is much debate about these classifications, especially in terms of physiological function. Gums, pectins, mucilayers, and certain hemicelluloses fill in
    BE2015 / 0272 the category of soluble fiber.
    Cellulose, other hemicelluloses and lignin are considered insoluble and are beneficial in terms of regulating healthy peristalsis and contributing to bulky bowel movements.
    Fiber ingredients are from a number of sources and typically contain a mixture of soluble and insoluble fiber. Most fiber constituents, especially insoluble forms, are derived from plant grains such as wheat, soy and oats; vegetables; fruit; and even trees. Purified forms are available that can bring the content of specific fiber component up to almost 100%. These tend to have less color, smell or taste than their unpurified counterparts. Purified cellulose fibers derived from various sources are particularly suitable for the application in the present invention, but other insoluble non-fermentable or very slow-fermentable fiber types can also be used.
    In line with the above, according to one embodiment, the composition of the invention further comprises fiber source selected from any of the following:
    a. insoluble non-fermentable fiber;
    b. insoluble slow-fermentable fiber;
    c. nuts;
    d. any combination of the aforementioned fiber sources.
    In a specific embodiment of the foregoing embodiment, the insoluble nonBE2015 / 0272 fermentable fiber is selected from the group consisting of cellulose, sterculia, or methycelullose; while the insoluble slow-fermentable fiber is lignin.
    In a particularly preferred and desirable embodiment, the fiber is provided by natural sources such as fruits or nuts, as long as the potential FODMAP content in said natural nuts does not cause the FODMAP content of the final composition to exceed 1 wt% exceeds.
    In a preferred embodiment, the fiber is provided by nuts selected from the group consisting of whole nuts, chopped nuts, ground nut powder, or a shelled or ground counterpart thereof.
    In preferred embodiments, the nuts suitable for a composition according to the previous embodiment of the invention are selected from the group consisting of almonds, cashews, peanuts, walnuts, hazelnuts, pecans, Brazil nuts, macadamia nuts, pine nuts, or coconuts.
    According to another aspect of the invention, there is provided a composition for producing a white protein source or milk chocolate product, with a mimic milk protein fraction provided by law for such chocolate products. Since milk sugar, or lactose, is a FODMAP compound consumed by a large part of the human population, said protein source is to be interpreted as non-comprising lactose or another FODMAP compound
    BE2015 / 0272 in the amount by which the final composition exceeds the maximum of 1% by weight of FODMAP.
    Thus, in a further embodiment of the present invention there is provided a composition further comprising a protein source comprising not more than 1 wt% lactose and not more than 1 wt% other FODMAP.
    In a specific embodiment of the previous embodiment, said protein source is selected from the group consisting of
    a. milk protein extract or isolate;
    b. casein / whey mixtures;
    c. soy protein;
    d. any combination of the above protein sources.
    Lactose-free chocolate offers few more options than isolated milk protein plus butterfat. The milk protein isolates are preferably composed of casein, whey or casein / whey mixtures and may be such as sodium, potassium or calcium complexes. If the product is not to be sold as milk chocolate, other protein sources may be considered, such as soy protein. The amount of milk protein and butterfat can be considered in two aspects; technical requirement and legal requirement. The legal situation cannot be summed up by the need for 14% solid milk, of which at least 3.5% must be butterfat. Addition of milk protein and butterfat to provide a total of 14% would create major technical difficulties. Excess protein makes the cocoa mass unprocessable, while excessive butterfat
    B E2015 / 0272 produces a very soft, unsaleable chocolate. It can be argued, however, that the spirit of the legislature requires that solid milk in a lactose-free chocolate be 14% minus the lactose content of 14% solid milk. This reduces the solid milk content to about 7.9%. Such a content of milk protein plus butterfat can be achieved technically.
    A wider range of ingredients is available for lactose-reduced chocolate, with manufacturers making ingredients available with different levels of milk protein, lactose and fat. The choice depends on the desired lactose content and the limited cost price that must be met. As mentioned above, plant products such as soy protein powder or extract provide a reasonably vegetable alternative.
    In further embodiments, the composition of the present invention may include any of the flavors or aromas or extract known in the art, such as vanilla, run, citrus, etc.
    In another aspect, the composition of the invention may further comprise a non-FODMAP active water regulating compound or an emulsifying agent. Possible emulsifiers include egg yolk, lecithin, polysorbate 80, polysorbates, soy lecithin, or combinations thereof. In a specific embodiment, said water-regulating compound is preferably glycerol.
    The chocolate composition can furthermore contain one or more vitamins, minerals, electrolytes,
    BE2015 / 0272 include trace elements, oils, health supplements, prebiotics, probiotics, kefir, phytonutrients, vegetable agents, nutraceuticals, herbs, amino acids, acidifiers, buffers, salts and combinations thereof.
    The chocolate composition of the invention may further comprise energy-related nutritional ingredients selected from at least one of caffeine, taurine, guarana, B vitamins, ginseng, ginkgo biloba, L-carnitine, sugars, antioxidants or combinations thereof.
    The chocolate composition may further include fruits, preferably a fruit with a reduced FODMAP content selected from banana, peach, apricot, lemon, raspberry, strawberry, wild berries, mango, passion fruit, guava, pomegranate, orange, blood orange, pear, lime , mandarin, calamansi, pineapple, papaya, lychee, kiwi, coconut, rhubarb, pumpkin, plum, cantaloupe, green apple, fig, wild strawberry, red currant, cherry, blueberry, cranberry, blackberry, black cherry, watermelon, apple, carrot , grape, lime grass, pink grapefruit, cassis, and combinations thereof, or beans, cocoa, nut mixes and pastes, coffee, fruit purees, fruit juices, fruit pulps, vegetables, spices, caramel, distillates, liqueur, natural and artificial flavors, extracts, and combinations thereof.
    Additionally, in an embodiment of the present invention, a chocolate product is provided. Such a chocolate product can be any product (tablet, bar, snack, praline, toffee, pastry, cake,
    BE2015 / 0272 etc.) comprising a chocolate composition and suitable for carrying a filling.
    The invention includes formulations that are satisfactory
    to the current regulations for chocolate and formulations That not to that meet. This last one provide a objective for use from constituents That currently not are allowed in
    chocolate. For example, cocoa mass can be completely or partially replaced by cocoa flavor, and cocoa butter can be replaced with other fats.
    It should be noted that low FODMAP chocolate that is an embodiment of this invention is suitable for people who are lactose intolerant and may also be reduced calorie chocolate due to the high elimination of the sugar content. To illustrate the invention in more detail, exemplary formulations and their production method are presented in the following examples. Production can also be carried out in other ways, for example by using a chocolate crumb as an intermediate.
    The method described is a variation of procedures known to anyone skilled in chocolate production.
    EXAMPLES
    EXAMPLE 1: Dark sugar-free lactose-free op
    coconut butter based chocolate
    35-60% coconut oil 35-60% cocoa powder or chocolate extract 0.01-15% monk fruit mogroside extract or thaumatin 2-20% isomaltulose
    BE2015 / 0272
    The ingredients were mixed in a mixer to form a homogeneous mass. This mass was passed through a five-roll refiner to reduce the particle size to 20-25 microns and then transferred to an at 6 ° C for 6 hours. The mass was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 2: Dark sucrose-free lactose-free chocolate with vanilla flavor
    35-60% cocoa butter
    35-60% cocoa powder or chocolate extract 1-10% cellulose or methycelullose powder 0.01-0.5% salt 0.01-5% vanilla powder or extract 0.01-15% monk fruit mogroside extract or thaumatin
    The ingredients were mixed in a mixer to form a homogeneous mass. This mass was passed through a five-roll refiner to reduce the particle size to 20-25 microns and then transferred to a for 6 hours at 40 ° C. The mass 15 was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 3: White sucrose-free lactose-free chocolate with vanilla flavor
    35-60% cocoa butter 0.01-5% vanilla powder or extract 0.01-0.5% salt 1-10% finely ground almond flour or lactose-free milk protein powder or casein powder or soy milk powder 0.01-15% monk fruit mogroside extract or thaumatin 2-20% isomaltulose
    BE2015 / 0272
    The ingredients were mixed in a mixer to form a homogeneous mass. This mass was passed through a five-roll refiner to reduce the particle size to 20-25 microns and then transferred to a for 6 hours at 40 ° C. The mass was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 4: White Sucrose-Free Lactose-Free Chocolate (Nut Fiber)
    35-60% cocoa butterdry nuts (e.g. almonds, cashews, 35-60% mixture of both) 0.01-5% vanilla powder or extract 0.01-15% monk fruit mogroside extract or thaumatin 2-20% isomaltulose Cocoa butter was melted and hot on the crude dry nuts poured, then for 1 hour
    set aside to soak the nuts. The remaining ingredients were added and mixed in a mixer to form a homogeneous mass. This mass was passed through a five-roll refiner to reduce the particle size to 20-25 microns and then transferred to a for 6 hours at 40 ° C. The mass was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 5: White sucrose-free lactose-free chocolate with orange / ginger flavor
    35-60% cocoa butter finely ground almond flour or lactose-free milk protein powder, sodium caseinate powder or soy milk powder
    1-10%
    BE2015 / 0272
    0.01-5% vanilla powder or extract 0.01-5% orange extract 0.01-5% ground ginger 0.01-0.5% salt 0.01-15% monk fruit mogroside extract or thaumatin 2-20% isomaltulose
    The ingredients were mixed in a mixer
    a homogeneous mass. This mass was measured by one
    refiner controlled by five rollers to reduce the particle size to 20-25 microns and then transferred to one for 6 hours at 40 ° C. The mass was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 6: Sucrose-free lactose-free milk chocolate
    25-50%
    1-10% cocoa butter coconut oil
    1-10% cocoa powder or chocolate extract
    1-10% lactose-free milk protein powder or casein powder or soy milk powder
    0.01-5% vanilla powder or extract
    0.01-15% monk fruit mogroside extract or thaumatin
    The ingredients were mixed in a mixer to form a homogeneous mass. This mass was passed through a five-roll refiner to reduce the particle size to 20-25 microns and then transferred to a for 6 hours at 40 ° C. The mass was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 7: Sucrose-free lactose-free dark chocolate with coconut and nuts
    35-60 coconut oil
    BE2015 / 0272
    5-40% almond butter 25-50% cocoa powder or chocolate extract 0.01-5% vanilla powder or extract 0.01-5% peppermint extract 0.01-0.5% salt 2-10% unsweetened shredded coconut 2-10% nuts, preferably shelled and chopped(walnuts, almonds, cashews, pecans 0.01-15% monk fruit mogroside extract or thaumatin The ingredients (without the shredded coconut
    and nuts) were mixed in a mixer to form a homogeneous mass. This mass was sent through a five-roll refiner to determine the particle size
    5 reduce to 20-25 micrometers and then
    transferred to a for 6 hours at 40 ° C. The mass was then tempered, poured into bars, cooled and removed from the mold.
    EXAMPLE 8: Sucrose-free lactose-free vanilla
    milk chocolate
    25-50% cocoa powder or chocolate extract 25-50% coconut oil 0.01-5% vanilla powder or extract 0.01-0.5% salt 1-10% lactose-free milk protein powder or casein powder or soy milk powder 0.01-15% monk fruit mogroside extract or thaumatin 2-20% isomaltulose
    The ingredients (without the shredded coconut and nuts) were mixed in a mixer to form a homogeneous mass. This mass was used by a refiner with
    five rollers sent to determine the particle size
    BE2015 / 0272 reduce to 20-25 μm and then transferred to a for 6 hours at 40 ° C. The mass was then tempered, poured into bars, cooled and removed from the mold.
    BE2015 / 0272
    权利要求:
    Claims (10)
    [1]
    1, wherein the sweet tasting protein is selected from the group consisting of thaumatin, monellin, mabinline, pentadine, brazzein, curculin, miraculin, and is preferably thaumatin.
    1.- A composition for producing a chocolate product, said composition comprising a non-sucrose non-glucose sweetener and at least 20 wt% fat, wherein
    - no more than 1% by weight of fermentable oligodi-monosaccharide and polyols (FODMAPs) is present, and
    - wherein said non-sucrose non-glucose sweetener is selected from the group consisting of:
    i. mogroside-enriched monk fruit extract;
    j. isomaltulose;
    k. sweet tasting protein;
    l. any combination of the aforementioned sweeteners.
    [2]
    2.- Composition according to claim
    [3]
    The composition of any one of the preceding claims, further comprising a fiber source selected from any of the following:
    insoluble non-fermentable fiber;
    b.
    insoluble slow-fermentable fiber;
    nuts selected from the group consisting of whole nuts, chopped nuts, ground nut powder, or a shelled or chopped pendant thereof;
    d. any combination of the aforementioned fiber sources.
    BE2015 / 0272
    [4]
    The composition of claim 3, wherein the insoluble non-fermentable fiber is selected from the group consisting of cellulose, sterculia, or methycelullose.
    [5]
    5 dietary carbohydrates, such as lactose or fructans. More specifically, the present invention relates to a composition for producing a sweet tasting chocolate product that is less than 1% poorly absorbable by the human small intestine,
    The composition of claim 3, wherein the insoluble slow-fermentable fiber is lignin.
    [6]
    The composition of claim 3, wherein the nuts are selected from the group consisting of almonds, cashews, peanuts, walnuts, hazelnuts, pecans, Brazil nuts, macadamia nuts, pine nuts, or coconuts.
    [7]
    The composition of any of the preceding claims, further comprising a protein source comprising no more than 1 wt% lactose and no more than 1 wt% other FODMAP.
    [8]
    The composition of claim 7, wherein the protein source is selected from the group consisting of
    a. milk protein extract or isolate;
    b. casein / whey mixtures;
    c. soy protein;
    d. any combination of the above protein sources.
    [9]
    A composition according to any preceding claim, further comprising a flavoring or extract.
    The composition of any preceding claim, further comprising a non-FODMAP active water-regulating compound.
    The composition of claim 10, wherein the non-FODMAP active water-regulating compound is lecithin.
    BE2015 / 0272
    12. The composition of any one of the preceding claims, wherein the mogroside-enriched monk fruit extract content of the sweet tasting protein is between 0.1 and 10% by weight.
    5
    Composition according to any one of the preceding claims, wherein the isomaltulose content is between 1 and 50% by weight.
    14. A composition according to any one of the preceding claims for the production of a chocolate product.
    15. The use of claim 14, wherein the chocolate product is selected from the group consisting of
    a. solid chocolate product such as a bar or tablet;
    b. filling for a chocolate product;
    c. chocolate litter;
    d. chocolate drink;
    e. chocolate powder.
    2015/0272
    Easily digestible chocolate product
    The present invention relates to an easily digestible low sugar chocolate product for consumers sensitive to
    [10]
    10 fermentable oligo-, di-, monosaccharides, or related alcohols, collectively known as FODMAPs (includes fermentable, oligo-, di-, monosaccharides and polyols), the sweet taste being provided by a sweetener selected from a group consisting of mogroside15 enriched monk fruit extract, isomaltulose, sweet tasting protein, or any combination of the above.
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    同族专利:
    公开号 | 公开日
    BE1025081A1|2018-10-16|
    WO2016097189A1|2016-06-23|
    US20180007927A1|2018-01-11|
    EP3232803A1|2017-10-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP1652436A1|2004-10-22|2006-05-03|Sweet Sue, LLC|Sugar substitute and bulking agent and chocolate|
    US20100062101A1|2006-11-09|2010-03-11|Marijke De Brouwer|Compositions|
    PH26555A|1987-12-15|1992-08-19|Procter & Gamble|Reduced calorie fats made from triglycerides containing medium and long chain fatty acids|IT201900004996A1|2019-04-03|2020-10-03|Emanuela Ribichini|ENERGY-PROTEIN SUPPLEMENT|
    法律状态:
    2018-12-07| FG| Patent granted|Effective date: 20181023 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP14199004|2014-12-18|
    EP14199004-4|2014-12-18|
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